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CHAPTER 6. STEPS TOWARDS A THEORY OF DISTAL PERCEPTION
Enoulh of metatheoretic abstractions.
In Part II of this essay, I have sought to survey basic neglected problems
that confront any serious attempt to develop an integrated science of mental phenomena.
The issues xaised have had a>jdisheveled only
evident unifying theme is the extraordinary difficulty we can expect to encounter
even when conjecturing *law8 of cogitation, nevermind establishing them as laws,
whose SLese quality is not an embarrassment. Indeed, it would be easy to conclude
that mentation can have so little htmanly fathomiable systemacy that academics who
fancy themselves as cognitive scientists should seek more honest employment elsewhere.
}fy intent, however, has been not to put quietus to SLese reconstruction of folk
payehology but to break ground for the foundations on which this must build i f i t
is to achieve whatever may be its potential. So by rights, this esaay^ffJIiyKSItdse
by demonstrating how disciplined SLese thinking can deepen our understanding of soae
particular mentuJL pbenUBenon of classic interest. Unhappily, the_e:steat."t#iaj|&<i!R I
can bring off that desideratum will elicit few sighs of gratification. Even Sf^
M-iWill be a useful exercise to review the issues abstractly examined earlier by
seeing how they arise when one attempts to formulate principles under which CMWon-
sensical percel'«d3ge are causally responsive to the environmental events about which
our percepts are putatlvely informative.
How do our perceptions relate to the external world? For any sentential
clause 'that-£' expressive of a possible perceptual judgment, i t is an important
coBBionsense tiniism that
(54.) For any observer 2 , i f £ perceives that-E, then
For example,
(54..1) For any observer £, i f £ perceives that-the-sun-is-shining, then
the sun is shining.
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As a scientific generality, however, (54) is severely defective in several instruc-^
tliw ways. First of all it entails, contrary to fact, that perception is always
veridical. Once we make clear that perceives that is to be read here in
its strictly psychological sense for which a philosopher might prefer 'It percept
ually appears to o that ...', we can easily enough hang a lajman's qualification
on (54.) by replacing 'then E ' therein with 'then probably jg'. But a technical
science insists on more determinate appraisals of such probabilitiesj and more
importantly, since the probability of n given £'s perceiving that-g is strongly
conditional on additional features of the perceiver's local circumstances, we would
want to detail what these are and how perceptual accuracy is affected by them.
Secondly, although (54) generalizes over all objects in a vaguely specified
domain ("observers") that would be clarified by our working out the determinants
of perceptual acctnracy, its second occurrence of 'p' is schematic not for a nominal
47 but for a statement, and cannot meaningfully be quantified over. As philosophers
Although not i l l l philosophers agree, I suggest that the single meat lBp©?;ta«iii insight into ontology ever achieved by technical philosophy is the Quinian principle that only the nominal components of sentences can meaningfully be rj^lsi^ediby placeholders (logical variables) bound by quantifiers. Thus, a sentence of form 'F(j|)«; logically entails 'There is something such that F(it)' only i f the occurrence of term or phrase 'afin this context is purporting to name (designate, refer to) something. To illustrate, from the sentence ' % pencil is dull' wherein 'my pencil' is a nominal but 'dull* is an adjective, I can properly infer 'There is something that is dull' but 2ot 'There is something that my pencil i s ' . But if I paraphrase(?1?1 this:' premise as ' fy pencil has (the property) dullness' by nominalizing its predicate,^ then 'There dte something that my pencil has' follows by impeccable logic. Similarly, I cannot meaningfully infer 'John sneezed because something' or 'There is something that John sneezed because' from 'John sneezed because his nose tickled', anymore than I can infer 'John sneezed or something' from 'John sneezed or Mary blinked'. But I can validly infer 'John's sneezing was due to something' from 'John's sneezing was due to his nose's tickling.' To non-philosophers, thistdiiU^^a«dri may well sew ^ stupifyingly recondite; yet unless it is heeded with 4eepiriflpfeat^ philosophies of language, logic, and ontology are at grave risk of incoherence. —
of language since Tarski well know, replacing any such scheme for semantic use/mention
interchange with an assertable generality relating concepts to external reality is
a task of enormous difficulty. (Note that although conversion of 'then g' in (54)
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te 'then that-g is true' allows quantification over 'that-^' as placeholder for the
name of a proposition, the resulting generality no longer links percepts with their
external objects.) Making articulate what nameable entities in the external world,
abstract or concrete, stand in lawful relations to what nameable constituents of
perceivings is a major goal for any serious science of perception.
Thirdly, (54..l) illustrates that even were perceivings always veridical,
few ordinary-language sentences would instantiate 'p' acceptably in (54). For when
John-today and Mary-yesterday both see that-the-sun-is-shining, the perceived
external event which (54.1) tries to identify by 'the sun is shining' is evidently
not the same for John-today as it is for Mary-yesterday. That is, (54.1) is shorthand
for something like
(54.1a) For any observer ©, i f o perceives that-the-sun-is-shining, then
probably the sun is shining in o's vicinity.
But (54.1a) is :^t of form (54); so what then is the perceptual principle, schema or
generality, this embodies? Other than abandoning (54) altogether, we have just two
options: (a) We can retain (54) unaltered by requiring each substitution for ' 2 '
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therein to be a sentence *2±^ that, signifies just one determinate state of affairs
unaccomodated to any particixlar o in (54)'s domain while the perceptual content
that-Pj^ expressed by 'g^' is free of . demonstrative element* that
allow the object of an o's perceiving-that-£^ to depend on o^ /Othefwlafe (b) wer
must put aside (54)'s simplistic use/mention interehaiige'in-favor of niem
(55) For any observer o, i f o perceives that-£, then probably #[that-£,jg] ,
wherein '#[that-£,o]' is schematic for the statement produced from 'a' and any
acceptable instantiation of ' 2 ' by a still-to-be-devised algorithm # which, for any
observer-name '0 ' and any relative clause 'that-^^^' adequately expressive of a
possible perceptual judgment, transforms <'that-£jj^*^'oj •> into a sentence whose
gerundization would designate what o 's truthful perceiving that-g^ would be a per
ception fif. Thus, # must enable (55) to capture the form of
(55.1) For any observer 0, i f 0 perceives that-the-sun-is-shining-here-and-now,
thei^probably the sun is shining in o's vicinity,
(!fote that (55.1) differs from (54.1a) in making explicit certain demonstrative
components of perceptual content that are presumably implicit in (54.1a).) Uilike
prospect (a), which is a non-starter, seeking to cash out # in meta-schema (55)
would be a reasonable and indeed valuable enterprise for the psycho-philosophy of
perception. But to bring this off with any success we need to articulate perceptual
contents far more richly than provided by ordinary-language verbalizations of percepts
and to develop swne sophistication in the SLese details of how perceptual events
arise.
Finally, even i f (54) or better (55) were impeccable in all other respects,
it would only schematize diagnostic laws lacking any explanatory force. For it is
clear even to folk psychology that the conditionality of (54) is not that of schema
(56) For any cognizer o, o's /ing-that-£ probably brings i t about that £.
Some Psi-verbs, notably 'endeavors', do indeed yield plausible instantiations of
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(56) for suitably chosen ' E ' ; but in all likelihood (56) is never true even roughly
for any ' E ' when is 'perceive'. The closest counterpart of (55) whose condition
ality is commonsensically causal is
(57) For any observer o, i f #[that-E,o], a; probable result is that
o perceives that-E,
except that whereas the probability in (55) is merely suspect, in (57) it is vanish-
ingly small. Schema (57) illustrates what we want of an explanatory theory of distal
perception (or rather, i t is an unSLesed precwscw of that, as (4) is of (9) in
Chapter l ) ; but i t makes plain our need to put flesh on connection schema # (more
technically, to spell out the details of locus structure in laws of perceptual
arousal by distal macro-stimuli) and calls even more loudly for expansion of (57)'s
i£-^lau#eM;© incl conditions with which state of affairs #[that-E,o] must be
supplemented if o's perceiving that-p is to be preduciedvsd-tb respectably high 1 ^ ^^
probability.
Of courJi^, perceptual generalities needn't be causal in order to have scientific
merit. But that is required i f we are to understand why people perceive as they do
with what accuracy under what circumstances; and omt notes on the illusory simplicity
of (54) leave little reason to hope that instructive acausal world/percept covariations
will be any easier to come by. Let us consider, therefore, how developanent of the
^—^causal atoi^ldght commence, ^
M. SIS. PgrcQpts differentiated?
Turn over this book and, after reAoring i t * dust jacket i f s t i l l there, _-
ii^pect its binding. - What do you see, and how? C©Bm©ii|«^e i^iataiek^^^t^ answer that
what you see is the entity your percept is of, namely the current temporal stage of
this book or- more precisely some state of affairs tiRj^gich :fchis b©6te?ftag» a
constituent, while your activated perceptual representation of that is the means
by which you see i t . But here we want a deeper reading of these questions: What
you perceive is to be conveyed by a statement of form 'I see S' wherein 'S' details
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the character of this seeing ( i . e . i t s content) by a relative clause distinct from
what would describe your perceiving's character had this book's binding been ahaped
or pigmented differently. And how you see i s to be answered i n terms of the mechan
ism through which the bookish state of your near environment gives rise to your
seeing fily rather than for any SLese contrast to content alternative
Ifere are some of the relative clauses that folk psychology would favor
for siarmising how you may have reacted fMrceptually i n this expariaenti
(58-1)
(58-2) (58-3)
(58-4)
(58-5)
(58-6)
(58-7)
(58-8)
{5S-9)
sees
/^that this book i s blue,
that this book's binding i s blue,
that this book's blndli^g^ i s a^ddling-de
that this book has a blue binding,
that this blue thing i s rectangular,
that this rectangular thing i s blue,
that this thing i s rectangularly blue,
that this binding has printing only on Jtsispine^
that one's hand partly covers this book,;
(58-10) V_that one's han.d has rag^d n a i l s .
(where |he-ldio|^ of self-report would replace the pronoun i n (58^t»lO) by
so on for Enormously many additions to this l i s t . Right off, then, we have a major
problem i n explaining y^str; cwmnonplace *i»foamiation pick-up": i¥ecif ely^ what l s ^
the percept tp be accounted, for here? Our uncertainty about one parM^
mental event which probably not even you can elevate to the status of observational
datum for our epistemic community i s not the issue; rather, i t i s which of these
ordinary-language perceptual proapecta, i f any, are:ireas^£b3A :t^
book-viewer's perceptual experience i n order to inquire how Ihey M^ht^Lw have
arisen. Presuming for the moment that at least one of predicates (58) became true
of you, did incompatibilities thwart your satisfying more than one of them? Or were
several true of you simultaneoualy and, i f so, were these co-occurrences Mrely
coineideBtal or did soae analytically neeessitate others? Above a l l , are oat or two
of these, or certain others that belong on the l i s t , perceptually primary i n that we
pretty well have to work out the theory of such primary perceivings before we can
get leverage on percepts that are i n various ways derivative from these?
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Conalder, for example, (58-2) vs. (58-3). Commonsensically, you can doubt,
or hope, or expect that-a-is-blue for some suitable nominal 'a' without doubting/
hoping/expectii^that a i i B u t can you see
that-a-is-blue without perforce seeing also that-a-is-$ish-blue for some shade
qualifier Let us provisionally agree that (58-2) is a-derivative from (58-3)
in essentially the way that weighing-roughly-128-lbs. is an abstraction from
(inter alia) weighlng-127*3852-lbs. But i f so, (58-3) presumably holds for you only
by rounding off, in turn, an even more determinate coloration percept which no
English phrase adequately conveys. Mtgl^tth^ letter's specificity then also anal
ytically include whatever i t takes to make (58-8) true of you as well? (l will later
argue not, but a case can be made either way.) And in similar vein, is (58-1) merely
an abstraction from i f not elliptic for (58-2)? Or, alternatively, did (58-2)'s
holding for you leave open or even interfere with (58-1)'s holding as well?
Although (58-1) can be construed simply as shorthand for (58-2), its strict
reading suggests^ a perceptual-content difference illustrated more explicitly by the
variation within (58-2,4) and (58-5,6,7). Commonsense disputes that seeing this book
either as bltae or as havinp-a-blue-b^ding ia identical with seeing as blue just this
book's Wading, Nor does ordinary language regard (58-5,6,7) as paraphrastically
equivalent. But are some of these Jtefely derivative from others—e.g., might (58-5)
and (58-6) be entailed by (58-7), and (58-2) by (58-4)~or are the properties these
respectively represent so distinct that competetion may prevent co-occurrence of
more than one in each group? (We shall return to this comparison lat«*.)
That we find queries such as these perplexing makes plain that the ordinary-
language relative clauses you might spontaneously use to tell others what you perceived
when looking at this book's binding, or to which you might assent i f asked whether
such-and-so is what you saw, appear dubiously adequate to express the dlstiaaJite
character of your perceiving with the precision wanted for a target of scientific
explanation. We could scarcely expect otherwise; for our perceivings precede our
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verbal reports thereof by a causal gap assuredly large enough to preclude tight
correspondence between seeing and saying even under the most favorable conditions
of self-r*»port. That is , although from your voicing that you saw that-this-book's-
bin^ng-is-bluB we can fairly infer that your just-preceding percept was probably one
which, conjoint with inter alia your current language habits and motivation, is apt
to elicit some verbalization in a class of rough synonyms for 'this book's binding
is blue' (or 'this ... looks blue' or 'this ... seems blue'), in all likelihood
there are a great many other perceptual contents that could also have prompted you
to this same verbalization and are diagnosed by the latter with scarcely less plausi
bility, i f not more, than the percept you actually had. To be sure, technical
research on perception often waives self-report in favor of more sensitive non
verbal indicators of input reception such as stimulus matching/ordering and discrim
ination thresholds; but r.ere inaccuracy of self-reports is not our point at issue
here. Rather, i f the phrases afforded by ordinary language for differentiating
percepts are not^even ro\ighly in one-one (or many-one) correspondence with the
perceptual distinctions that seem needed to account for perception-mediated behavior,
by what linguistic devices are these distinctions to be drawn by a science of per
ception? For example, instead of merely inspecting this book's binding, you might
try to sort a large number of variously shaded blue chips into a spatial layout
whose between-chip spacings correspond to the degrees of^color similarity you see
among them. Arguably, in order to make these comparisons you have to see each chip
as a distinct shade of blue. If so, how are we to individuate these percept-shadings
in conjectured accounts of their lawful evocation in you when ordinary English does
not give us the words to do so? Nevermind how we might learn for sure what the
to-be-accounted-for events in fact are; the deep problem is how can we even conceive
what they distinctively might be in the first place.
Were our deficiencies in perceptual predicates merely suboptimal precision
of distinctions already roughed in by our extant language, their alleviation
would prima facie be largely routine. (Technical science has had several centuries
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of practice at concept refinements.) For example, we can easily imagine adding
labels to our language, and training ourselves to use them discriminatingly, for
all the different colors displayed, aay, in the Munsell Color Atlas. ° But surely
is by no means certain that when your perceiving of this book should be described by a predicate of form ' sees that this book binding is |ish in color', the more finely I can myself discriminate and verbalize shades of color, the more closely I can approximate the specificity of youDP percept by some substitution for '#' from my expertise vocabulary. But even were this to be so, there is rather more to establishing that vocabulary as one our epistemic community can yse than just publishing' a e^efully ordered and indexed collection of color chips. Access to such a physical atlas immediately gives me the use of color-comparison predicates of form ' sees that this thing is the same color as the atlas chip labeled L|'; but that is s t i l l some distance from my acquiring the ability to make meaningful use of a predicate ' sees that this thing is $ish in color' in which '$ish' is some adjectival variant of label L^. Arguably—though some profound obsctrities in the nature of language-as-we-use-it troubles this thesis—my use of this latter locution is not "meaningful" in the fashion wanted unless I can use color-qualifier '$' in nonrelational color judgments (e.g., 'This thing appears $ish to me') that are highly predictive of the color comparisons I might then make between things I judge to $ish/non-|ish and chips in the atlas. Specifically, i f I judge object by itself to be fish, the chip to which I then match a upon inspection of the atlas should be the one labeled L^.
not all possible perceivings, e.g. some by isolated aborigines, or chimpanzees, or
human infants, or pigeons, are even roughly synonymous with any expressions in our
shared adult language either now or in foreseeable future enrichments thereof. And
if so, in what terms can we speculate about the possible character of those percepts?
As a baseline for discussion, I give you
Posit. A condition of internal arousal is not a percept, or at-.least is
not identifiable by us as one, unless we can give i t an individuating description
comprising a verb (notably 'perceives' or one we take to demark a particular
style of perceiving) followed by a phrase formalizable as 'that-F(e^,/3)', with
singular
'!!(_,_)• therein the schema of aome class of English^^subject/predicate sentences.
More specifically, »©<' and '/3' are to be tuples 'of' = <r'<x',...,'<<'> (m>l)
and •/3' = <'/'j ',...,'/ j'y (niO) of possibly-complex symbols such that each '/3j'
can be tagged by swne English expression 'bj' (perhaps only a word-radical),
and each V^' by some English nominal 'a^', for which (writing 'a' for <'a ',
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..•»'Sn.'> and 'b' for <'b,'bj,'>) 'F(_,b)' is a well-formed English predicate inclining quantifiers
not / and '|!(a,b)' an assertable English sentence. (Predicate •F(_,b)' is of
course pulled out of 'F(o<,/3)' by replacing the latter's 'o '-terms by placeholders
and its '/3'-symbols by the corresponding elements of 'b'. There is no imputation
here that 'ot' has any similarity of meaning to 'a', or '/9' to "b*. Rather,
these English "tags" serve to associate each symbol ^oC^^ or ' ^ j ' with a
grammatical type of expression exemplified by its tag.)
Evidently this fosit needs conanentary. First, i t allows tkat. the
English tag associated with *t(^^ or '/i^* might be just V^' or • itself. So it
subsumes cases where 'F(_,/3)' is already an English predicate or 'F(of,y )' itself
an English sentence. Secondly, there is reason for the Posit's elaborate wording;
for although I would have preferred it to declare simply that a percept's description singular (i.e. unquantified)
is to have the structure of a^subject/predicate proposition, the force of saying
that is unhelpfully obscure. Even so, whatever propositionally structured mental
contents may be,* they are something that everyday English tries to characterize by
declarative sentences converted to relative clauses; and the Posit stipulates that
a percept recognizable as such must be describable by putting symbolic elements
into an English sentence-frame in such fashion that i f each of these elements were
to be added to English as a meaningful expression of its tagged grammatical type,
then this percept-description wovtid be distinguished by an English relative clause
with the grammatical structure of the English sentence-frame i t now embeds. Pred
icate ' perceives that-F(cw,/3)' is a theoretical construct whose meaning for us
is defined by the psychonomic theory we make with i t ; and to complete our contention
that it describes a percept with content that-F(o^,/3), despite 'F(o(,/3)« not being a
sentence in our own language, we must conjecture "laws governing this predicate
wherein its '«' and '/J' constituents play roles rather similar to what commonsense
takes to be the distinctive contributions of 'a' and 'b' to verbalized conjectured
causes and effects of perceivings-that-F(a,b) when 'F(a,b)' is a sentence in English.
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But 1^*C the Posit's preoccupation with English intolerably chauvinistic?
Not really; or at least not insofar as sentence-frames that might be accepted under
the Posit's counterpart in another language have English translations. Admittedly,
the possibility does remain that perceptual structure has variants not adequately
currently
captured by the syntax of any communicatioja systemi^^ as ling^stlc. But
we have little hope of imagining what those might be until we come to tmderstand
the constitution (i.e., a/t-derivational nature) of properties we now take to be
paradigmatically perceptual.
On the other hand, even within the framework of English sentences, may not
the Posit be overly narrow in limiting percepts to stngular subject/predicate form?
Major issues arise here. The umbrella question i s , given a set ^2,^} propositions
logically interconnected in ways to be illustrated, is it possible for these all
to be contents of an observer's near-simultaneous perceivings and, i f so, do some
of these perceivings-that-£^ necessarily derive either causally or abstractively
from others? us consider some cases couched in ordinary English.
Suppose that your inspection of this book's binding made some version of
(58-9) true of you, say ' sees that this^ covers thisg'. (Idiom would say ' sees
that this covers that', but I prefer 'that' to s emain tinivoeal here.) The sentence
that expresses this percept's content is a paradigm of subject/predicate composition
in ascribing a predicate of nearly minimal grammatical conrplexity (' covers ')
to a pair of nominals ('this^','this2') whose own internal syntax is likewise,
minimal. Now: Is i t possible that you also saw that-something-covers-thi82. or
that-thiSj^-covers-something, or that-something-covers-something-else? Modem logic
formalizes the sentences describing these latter three content possibilities as
'(3x)P(z,a2)'(3l)P(aj^,2)', and ' (92f,z)P(x,z)', respectively, all of which are
different one-way logical consequences of the sentence '^(a^jag)' formalizing the
content of seeing that-thi^j^-covers-thisg. So be sure to understand these existential
generalizations to give seeing that-stanething-covers-thisp (etc.) a content somewhat
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different from that of seeing that-this^-covers-thisg. (Although idiom finds i t
easy to \ise 'something' as a bare demonstrative in perceptual contexts, its sense
as a quantifier in, e.g., 'Not everything is covered by something' is what we want
here.) But can you genuinely perceive that-something-covers-thisg as distinct from
perceiving some particular thing as covering this2? Clearly a fully particularized
perceiving can convince you of the generality that-something-covers-thiSg; but is
this existentially quantified awareness too a perceiving arls it instead only pest-
pereeptual^^Mef5 f^M^^^s:i:i^p^iiB^^dt . a | ^ l j i s t - - t h e ; - l^ ^ ^ p ^ ; : ^ ^ j l ^ ^ | ^ ' ; .
canTthe Posit into question. For three obscurities have now become obtrusive:
First, i f you can see that-something-covers-thiSg, can you do so except as a result
of some perceiving whose content is a fully particularized that-^JCj^-covers-thiSj?
Secondly, i f the former requires the latter, is its derivation a causal production
or an analjrtlc abstraction? And finally, i f this derivation is causal, can both
its antecedent and its consequent be perceivings?
Whether 'fene perceiving can causally evoke another may at first seem to be
largely a matter of definition. For i f we stipulate, reasonably enough, that per
ception is the first phase of input processing to which our commonsense language
of intentionality (Psi-verb talk) applies, we might then also prefer that any
cogitations aroused in turn by percepts are to be classified as post-perceptual
ideation. However, the foregone certainty that perceptual processes are dynamically
auto-regressive—i.e., that whatever we take to be the perceptual state of observer
£ at time t is a major source (at the appropriate level of molar causality) of s's
perceivings at time t+A—pretty well requires that we allow percepts to be prevail
ingly caused in part by other percepts. S t i l l , we want to distinguish hard-core
perceivings from their less-sensuous cogitive consequences even though this contrast
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surely spreads over a graded series of differences on which the comnonsense division more intellectualized
between perceiving and/^thinking/believing would be arbitrary were it not so broadly
vague. So i t seems appropriate to envision multiple stages of perceptual processing
whose details will emerge only as we work out the nature of cogitive contents but
which are ordered (perhaps only partially ordered) by a normal sequence of activations
from peripheral input passing through distinguishable steps of perceiving over into
central nonsensuous thought. If so, we can waive qualms about the generic admiss
ibility of generalized propositions as perceptual contents in favor of doubt only
that these can be contents of perception's earliest stages. In keeping with that
move, we ^ d i f y the term 'percept' in the Posit's opening clause as 'first-stage
percept'-or 'primary percept',
singular
Alternatively, the Posit's restriction toj[ subject/predicate content structures
can be dropned simply by replacing '(m>:l)' therein by '(m 20)'^(However, that would
defeat half of the Posit's dual purpose, which is not merely to sketch how we can
get a conceptual^handle on perceptual contents beyond the reach of ordinary English,
but also to urge that in perception there M^^«s«i^|^
subject/predicate composition.
Let us accept, then, that you can see that-something-covers-thiSg, or that-
something-covers-something-else, as a result of seeing that-this-^-covers-thiSg. But
resulting how? Could all or most of the latter be abstractively contained in the
former, more or less as seeing that-this-is-darkish-blue presumably abstracts into
seeing that-this-is-blue? The answer is neither clear to me nor is really needed
for present purposes except insofar as the emended Posit would be easier to defend
were perceiving that-(3x)P(x,a2) to be a-derivative from perceiving that-g(8 ,82)
rather than caused by i t . Even so, the issue is basic for perceptual theory, as
other examples can bring out more forcefully.
Suppose that instead of merely turning this book over, you laid i t down,
withdrew your hand, and became aware that-not-everything-is-covered-by-something.
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Considering the complex pure generality of its content, which modem logic would
pars© by formalism ''-'(Vj;) (3X1p(X,2) could this awareness possibly be a percent?
Maybe, maybe not; introspection seems indecisive. But however it is to be classified,
we can reasonably presume i t to be due to your awareness that-nothinc-covers-thia^«
which surely is as sensuously vivid as any percept suggested by list (58). And
although the latter's content formalization as ''^(9x)P(x,a2)' or '(yx)'-'P(x,a2)' again
exhibits the structure of a complex generality vfcich seems far more suitfd to po^t-
perceptual ideation than for perceptual immediacy, commonsense wovild be outraged
by insistance that you can't really perceive a thing's lack of encumberances. Must
we concede, then, that your seeing that-nothing-covers-thlsg is a first-stage percept
which refutes even the amended Posit? Not i f we can argue that your seeing-that-
'^(•3z)£(2>S2^ derives, either causally or by abstraction, from some other perceiving
of yours with fully singular content. And to ray own introspective sensitivities^.s
that does indeed seem correct. Contrary to what a logician might prefer, you
assuredly do not perceive that-nothing-covers-this2 by inductive inference from
an array of perceivings [that-Wj^-does-not-cover-thiSj}. Rathery what does seem
psychonomically plausible is that your no-covering awareness arises from a first-stage
percept whose content is some that-thiso-is-/^igij^. >dt^ m - Pi^di^a /Q
rather similar to the meaning of ' is unobstructed' except for being conceptually
elemental, not built up frm still-more primitive predicates by negation and/br
quantification. Moreover, the meaning gap between that-this^-is-/3iabr^aaid fe?-
nothing-covers-thiSo. which does encorporate negation and quantification, appears
sufficiently large that the latter cannot reasonably be viewed as just an analytic
abstraction from the former. If so, your passing from seeing that-thiSg-is-ySlilPj'
to seeing-that-nothing-covers-this2 is a causal progression by some nomic principle
which neither embodies any entailment schema recognized by modern logic nor always
produces the latter as concommitant to the former, as would be required:,Were the
one to be analytically xsentalned in tfee other.
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Similarly, i f introspection is correct in allowing you to see that-nothing-
covers-this2 without necessarily seeing also that-not-everything-is-covered-by-
something, or to see that-thiSj^-covers-this2 at times bereft of seeing that-somethihg-
covers-this2 or that-something-covers-something-else, then these existentially
generalized seeings can only be all or in part causal consequences of, not wholly
abstractions from, the fully singular seeings that give rise to themi Even
so, there s t i l l remains some question whether the seemingly chancy accompaniment of
seeing-that-P(a]^,a2) by seeing-that-(^x)P(x,a2) is the latter's being indeed a stage
of perceptual arousal distinct from the former, or whether this separation might
instead be just an illusion of unreliable verbal reporting. That is , with brutal
oversimplification, perhaps your seeing-that-something-covers-this2 consists of
your saying-to-yourself the words, 'Something covers this', in response to seeing-
that-this^-covers-this2 without causal mediation by any existentially generalized
perceiving.
Roughly^speaking, the more syntactically and/or conceptually complex is
the relative clause by which we describe a putative percept, the farther downstream
in a process sequence this perceiving seems likely to be from any primitive OMM - ~
of perception. Consider, for example, (58-8). Even apart from the negation and
quantification discernable therein, the concepts of printing and book-spine within
its content implicate a high degree of "interpretation"—i.e., integration of
present experience with an intricate residue of past cogitations—-whoie evocatiou
is suz'ely consequent upon some less intellectualized perceivings of pigmentations.
Conjecturably, these primary perceivings afe an ensemble having deseriptionar
suggested by ^' sees that this^ thing-part is /S ish in color'i and |' sees
that thiSj tWjag-part contrasts /3jj -wise with thisj^ one'J. Or should we
conjecture instead that your first-stage perceiving here is describabl» by just one
' sees that this thing is /3*isfa lu color', wherein the /3»-qualifier, though
not a color concept available in English, manages somehow to encode all tbe color
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features that you can attribute to this book in later stages of perceptual and post-
perceptual cogitation? The latter does not preclude your also having an array of
derivative perceptual properties ^seeing that-thiSj^-thing-part-is-/5j^ish-in-colbr: ,
etc.; but whether these are then analytic abstractions from a single seeing that-
this-thing-is-/3*ish-^in-col6r, are separate causal consequences of i t , or are some
mixture thereof, remains an achingly open question.
The ensemble of simfiataneoas perceivings just envisioned points toward s t i l l
another Instfuctive puzzle ease in how; percepts are to be 4eseri]^ively/eiat6logiea
distinguished. In simplification of (58-9,10), suppose it is possible for you to
(a) see that-thls -o over s-t hi s > while simultaneously seeing also that-thisj^-is-ragged.
How does this icia'l perceiving differ from (b) seeing that-this^-cover^-thig^-and-
thlSj^-is-ragged. and the latter from^(c) seeing tjiat-thiSj^-ioyffjrs-thi^g-aq^-^^s-r^gped?
One answer, which seems clearly wrong to me, is that these are simply three different
ways to describe the very same perceptual content, or—a slightly weaker claim—that
they make nearly^but not quite identical abstractions from a base percept which
ordinary English cannot clearly distinguish from them. Whether (a) might differ
from (b) is tested by considering whether both halves of the following biconditional
are true:
(59-1) For any propositions that-g and that-a, i f any observer q perceives
that-p-and-a, then Q, perceives that-E and perceives that-g.
(59-2) For any propositions that-E and that-g, i f any observer o perceives
that-E and perceives that-a, then o perceives that-E-and-a.
(59-1) can easily be defended on grounds that any perceiving whose content is a
conjunction of propositions analjrtically contains perceiving each one of them. But
(59-2) implies that there is nothing more to prepositional conjunction than just
co-occurrence, which is sufficiently implausible to discourage equating (a) with (b)
even though we seldom heed this distinction in everyday perception-talk. Even more
conspicuous is the manifest difference between (b) and (c), at least i f the syntax
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of our descriptions thereof is to be taken seriously. For the content of (b)
attributes a 3-place predicate to a 3-component subject albeit giving tirp_of tbose-^
subject components a special content similarity, whereas the content of (c) is a
binary predication. If this descriptive difference is not just a quirk of English
idiom but reflects a genuine distinction in perceptual organization, it becomes
incumbent on perception theory to explain precisely ijow these differ, both in psycho-
ntanic function and in constitution. In all likelihood, (a) is simply an abstraction
from a variety of more determinate perceivings, (b) and (c) among others. But given
that neither (b) nor (c) abstracts frran the other, do these normally occur in sucoesi-
iVB stages of a causal progression (and i f so, which comes first?), are they on
separate causal paths which can nevertheless run off synchronically, or does arousal
of the one competetlvely preclude conjoint activation of the other?
Concommitant to but deeper than such functional questions about (b) vs. is)
is the issue of how these differ constitutionally: Could that be largely :
variance in thp locus structure of micro-events from which (b) and (c) respectively
abstract, comparable to the locus-structural difference between uttering, hearing, contrast
or reading the word-string (b') 'This covers that and this is raggedV^^J^et^rrstring
(c') 'This covers that and is ragged'? The core of your emitting/receiving (b')
or (c') is a temporal sequence of motoric/sensory verbal subpatterns; and the only
peripheral difference between these two utterings/hearings/readings (neither of
which manifests much locus-structural similarity to the sensory input that produces
your (b)-seeing or (c)-seeing) is that sequence (b') repeats a subpattern which (c')
contains only once. So given that the abstraction base of your molar (b)-seeing
or (c)-seeing must have a t-core (cf. p. 150, above) comprising an ensemble of
micro-events distributed in space and time, do the nominals in this percept's
English description correspond to particular subsets of percept-constituting micro-
events in such fashion that in case (b), but not (c), there are three so-named
micro-arrays of which two share a certain attributive character? And is the miicro-
molar reason why you cannot effectively utter/hear/read (b') and (c') simultaneously
-234a-
(desplte there being ways in whiqh this is physically possible) a close counterpart
of why (fe) and (c) are in large measure competetive? We shall explore this prospect,
that the constitutional nature of hav5.ng a percept is basically of a kind with
receiving/emitting a sentence, at some length following a pause to take stock of
what we have been doing and where this will lead.
Whence arid whither.
Our ultimate aim in this chapter is to consider how far a science of perception
may possibly go in establishing well-SLesed laws under which distinctive features of
an observer's external surround elicit one determinate perceiving rather than another.
But the very first step in that undertaking is working out a language within which
we can characterize the assorted percepttial alternatives whose dependencies upon
environmental elicitors are to be disclosed. (We cannot intelligibly say why
someone perceives ^^ly rather than fi^ly until we can replace 'fi^^ly' and 'Sjly' by
words that literally mean something.)
Seeking to verbalize specific to-be-accounted-for percepts (perceptual
states of mind) throws us immediately into a love/hate affair with ordinary language.
For not only does ordinary language contain unboundedly many predicates that are
commonsensically perceptual, technical psychology has no present grounds on which
to classify any psychonomic property P as "perceptual" except by arguing that P-ness
appears to be the sort of thing that commonsense perception talk is about. Yet
ordinary language quickly proves inadequate for a technical science of perception.
For on one hand we quickly find ourselves wanting to distinguish perceptual alter
natives far more articulately than ordinary language avails, even while, on the
other hand, it is far from clear which variations in ordinary-languagt perceptual
locutions reflect significant differences in reality rather than stylistic artifacts
of ellipsis, paraphrase, metaphor, allusion, and other context-dependent fluidities
of phrasing that are the bane of a jiard science
-234b-
So how do we escape this bind? Our answer Is to hypothesize provisionally
that were everyday English to be expanded into a capacity to express all possible
descriptive concepts of the varietw granunatical types we now recognize, to be enriched
without limit in all ways that our working vocabularies do in fact increase with
maturation and experience, then use of this perfected language according to the
rules by which we now construct English perceptual predicates would provide individ
uating identifications of all percept alternatives that our science thereof wants to
study. Then for inquiry into perceptual issues that cut across the details of
particular instances, we can take our examples from everyday English with all the
intuitional/folk-psychological leverage that gives us on the question at hand, while
expecting that whatever we conjecture or provisionally conclude from such ordinary-
language cases should apply as well to percepts described with greater technical
adequacy whenever we become able to bring that off. Meanwhile, as we develop theories
about the psychonomic nature of commonsense percepts, we shall find ourselves
regimenting, restricting, and perhaps eventually even modifying the grammar of
ordinary-language perception talk—in short, the sort of bootstraps l i f t by which
any technical science moves beyond its commonsense origin. But to commence, we
must tug on whatever lacings we initially find in place. .
Although ordinary English allows sentence radical 'o perceives ' to be
completed by expressions of widely diverse grammatical types, I have stipulated
in Chapter 5)
(with cogent but scarcely irresistable argument that only completions of form 'that-g
with ' E ' a grammatically well-formed declarative sentence, are to be accepted for now.
as describing mental states of the perceptual sort. But that s t i l l gives us an
enormous field of purported perceptual properties signified by predicates of form
' perceives that E ' , some of which, i f possible of realization at a l l , are surely
derivative one way or another from more basic percepts which are the most seemly
candidates for governance by laws of distal perception. To focus this concern, let
p sees that E J ^ ' ^ comprise the predicates formed from all the sentences ^ ' E ^ ' ^
-234c-
whose only descriptive terms, or grammatical variants thereof, are contained in
the relative clause of some commonsensically straightforward perceptual predicate
' sees that EQ'« Given that the latter is true of some o, which of the former
must then also be true of o, which must be false of o, and most importantly, what
understanding of perceptual organization do we acquire from attempting to decipher
why these entailments and exclusions hold?
Our reflections on commonsensical perceptual possibilities (58) have noted
three kinds of content interplay which any serious theory of perception needs to
recognize and give some account of. One is the connection between seeine-that-p^
and seeing-that-Pj^ when sentence 'E^^' derives from ' E ^ ' by converting some predicative
concept therein into a weakened, looser, less determinate version of that disting-
uisher, e.g., rarefying 'middling-dark-blue' into just 'blue'. In this case, given
that there indeed exists a seeing-that-E^ property signified by predicate ' sees
that EQ'» we have three primary prospects for the semantic status of ' seeea that B^^'
when commonsensit understands this to be entailed by ' sees that j ^ ' . One is te
say that ' sees that E^'lacks the precision required for a predicate te represeiit
anything, so that strictly speaking there is no such property as seeing-that-g^^.
Another is taking ' sees that E ^ ' "to signify loosely on certain occasions of its
usage the very same property that ' sees that E Q ' signifies more precisely, i.e.,
to hold that when sentence 'o sees that E Q ' truthfully represents £ as seeing-that-E^,
the predicate in 'o sees that E^^' ^Iso represents seelng-that-E^. And finally, we
can allow that although seeing-that-E^ and seeing-that-E^ are distinct properties,
the latter is abstractively contained in the former, just as Rectangularity is
an analytic abstraction from (inter alia) Squareness. For reasons that need not be
aired here, the first two alternatives are to be shunned i f at. ail-possible. la
contrast^ despite pntologieal qualms that Option 1 may" ©oiSasioi,-treating thl^
rarefied seeing-that-Ejj^ as an abstraction from the more determinate seeing-that-EQ
is simply one more application of the a-derivational thinking whose SLese formalisms
-234d-
have been exercised repeatedly In preceding chapters and without which it scarcely
seems possible to do technical science. That some percepts are analytically con
tained in or "supervenient" upon others has no outset import for perception theoiTr
beyond preparing us to recognize that this is one salient way in which a to-be-
explained perieiving may be due to another. But it is a nice question whether some
levels of perceptual abstraction are not better behaved in causal regularities than
are others and, i f so, by what signs (e.g. description features) can we pick out
percepts on these psychonomically preferred levels? Similarly but more directly
germane to our hopes of finding principles under which perceptual events are
governed, it seems exceedingly unlikely that there exist:law-schemata or meta-laws
(cf. p. 215 above) that subsume perceptual variables with indifference to their
abstraction levels. It follows that any conjectured *principle of perception worth
taking seriovisly must be carefully r estricted to, later alia, some particular
abstraction level for which we have worked out specifications.
(Note, ||pwever, that even when ' sees that p^' is a linguistic attenuation
of ' sees that E Q ' as just described, it remains conceivable that we sometimes
understand these predicates to designate separable percepts such that, on the one
hand, seeing-that-gQ not only does not necessitate but may even interfere with
simultaneous seeing-that-Ej^, while conversely, seeing-that-E^ needs not be accom
panied by any seeing-that-E^ characterized by a content sentence ' E ^ ' of which 'EJ^'
is an attenuation. How this case differs from the one wherein seeing-that-Ej^ is
an abstraction from seeing-that-pQ is one of the clarifications we expect from
any serious account of what percepts are.)
Secondly, we have encountered the question of how seeing-that-E^ relates to
seeing-that-EQ when sentence 'E J^' is formed from a singular (fully determinate)
subject/predicate sentence ' E Q ' by quantifying over nominals in the latter. Although
it is conceivable that seeing-that-E^^ in this case is abstractively contained in
seeing-that-Ep when all quantification in 'E J ^ ' is existential—later I will defend
-234e-
a thesis not far from that—introspection urges not merely that there is in general
a real separation here, but also that when quantified percepts arise they are causal
consequences of fully singular ones, the latter being what distal stimulation evokes
most directly. Even i f that is not always true, singular percepts are by far the
easier to model, and confront us most starkly with the irreducible subject/predicate
core of perceptual structure—^which is why we shall say little more here about
quantified contents. Even so, making place for an account of this apparent differ
ence in kind between quantified percepts and singular ones is a condition of
adequacy on anjr Bodel of perception.
Finally, we have noted that the content clauses of two singular perceptual
predicates can contain exactly the same concept elements, yet assign these te dif
ferent roles in sjmtactic frames that may themselves differ. Whether such grammatical
variations reflect genuine contrasts in the percepts so described, and if so what is
their nature, cuts to the heart of the fundamental psychonomic problem of mentality:
When we attribute to some o a percept (or any other moded thought) with sententially
characterized content, what does that say about o beyond £'s mere thinking a cluster
of ideas corresponding to the list of this sentence's morphemes? That is , what ip
a propositionally structured percept is more than just the aggregate of its content
elements, and how does that something-more affect the dynamics of thinking? This
question has remained so profoundly ignored in cognitive science that verbalizing
any constitutional models of content structure, even simplistic ones of dubious
merit, cannot help but significantly advance our comprehension of this matter.
There is s t i l l another important perception-theoretic obscurity visible in
o\ir preceding examples. It is plain from these that ordinary-language perceptual
predicates are pervaded by demonstrative terms. That is no great matter i f these
merely token the inadequacy of extant English for describing percepts with the
precision and detail that an unboundedly enriched English would allow. But the
prospect that demonstratives may not be eliminable from percept descriptions eve»
in principle threatens cognitive science with shipwreck. For if 'P(_)' is a predicate,
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perceptual or otherwise, that opntaiTia a demonstrative whose linguistic force is
relative on each occasion of this predicate's usage to some aspect of that local
circumstance, can this context-dependent locution 'P(_)' then possibly participate
in any law-statement L that not only generalizes over an open domain but also
aspires to convey the same representation of how the world works on all occasions
of L's contemplation by the epistemic community concerned with this generality?
Although the answer, I fear, is that No, this is not possible, we can s t i l l seek
ways for a science of perception to admit perceptual demonstratives even while
evading condemnation under this conclusion. (Indeed, we shall later make con
siderable effort to accomplish that.) But clearly, some coming to terms with
demonstratives must be given high priority by any serious concern for communicable
perceptu^ regularities.
We shall now undertake deeper probing of the iaausa Just scanned by ebaerving
their differential portrayals in two strongly contrastive models of how perceptual
properties might be embodied in complexes of brain conditions. (Strictly speaking,
localization of percepts in the brain is a minor detail easily waived by these
models; but I include i t because we have every reason to feel sure that the t-cores
of commonsensically conceived mental events are indeed molar occurrences within
nervous systems.) One model cashes out the widespread notion that thinking is
somehow an internalized exercising of language; the other reflects the view that
perception is basically imagistic. Both models are skeletal in the sense that each
leaves many major details unspecified. It is , however, of considerable value to
appreciate how perception theory can pursue one or another forceful direction of
model development without premature commitment to particulars that are best left
open until their choice becomes well motivated.
No firm conclusions will emerge from these model comparisons, for although
I shall eventually iirge that one of the two can largely be dismissed, it would be
foolish to suggest that the other wins by default over more sophisticated accounts
-234g-
not yet aired. But models need to develop motivated complexity by evolving under
criticism; and this chapter's aspiration is not final resolution of any perception-
theoretic uncertainties, but layout of foundation issues brought into clear focus
by some outrageously idealized models capable of goading us to conceive of superior
alternatives. Meanwhile, in an immediate application, we shall later see how use
fully even a primitive constitutional model can guide our sorting of perceptual
properties into variables, as required for us to get on with search for functional
regularities in perception.
What percepts might bg: Tvo models.
The prospect of instructive constitutional parallel, between pereeivinfs-
tlMit«B and peripheral occurrences of aeouatic sir graphic Aigliah atoteneea whoae
meaning is that-g, suggests a model for the nature of percepts valuable not so much
for its likely acciiracy as for the fix it gives us on what is possible. According to
this. thtg iHi?ier-3enten@e model of perception, the t-core locus of o's perceiving
that-E is an arf%y <:o|,gg,. .> of disjoint brain-part stages in o—^i.e., each 3^ is
a restricted though peri^ps discontinuous region of o's neural tissue during some
particular portion of the time-interval spanned by this perceiving—^which contains
the proposition that-E as follows: First, for each i = a , b , e i t h e r the totality
of EJ^'s activation state or a certain abstraction from this is the fragment of per
ceptual content. I.e. concept, expressed by some meaning-subdivision in a sentence
' E ' which in our language asserts that-E (or which would assert that-E for us were can
our vocabulary to be suitably enriched). Wej allow that £^'s activation state embodies
as many different perceptual concepts simultaneously as there are different abstractions
from that state picked out by our language for percept-description. (Thus i f E^'s
state embodies the middling-dark-blue concent. i t also embodies the more abstract blue.)
And secondly, the grammar-conveyed organization which jaakes the proposition expressed
by sentence ' 2 ' much more than just an an aggregate of meanings elicited piecemeal
by morphemes jjrdered arbitrarily in '£' is some configuration of IbcUs^-stfufelural
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properties/relations on a's brain-stage regions <S^,£^,..->.
Crudely illustrated, the inner-sentence proposal is that your seeing that-
thiSj^-covers-thiSo takes place in three regions o*,o ,o* of your brain during the
time of this seeing (which regions may or may not be simply three disjoint stages
of the same continuant neural register) such that o|[ sensuously thinks the thisj^-
concept, og and q* sensuously think covers and thiso. respectively, and these three
disjoint local thoughts are woven into a prepositional attribution of covers to
<thiSj^.thiS2> by some special compound F(_,_,_) o f properties and relations on
<£g»S^»2^> that constitutes the syntactic frame of a binary predication. The
ingredients of structure F might include aspects of these brain-regions' temporal
sequence, their geometric layout, their sizes and synaptic connections, even perhaps
transient conditions independent of their concept-embodying activation-state
features- in counterpart to grammatical inflictions in a spoken sentence. :
But bntological details of F's composition remain an outstanding mystery.
[The inner-sentence model posits a basic distinction between (a) brain-region ^ rough
characteristics that, in^correspondence/analogy to the spatio-temporal layout of
morpheme sites in sentences of an uninflected language, constitute the syntactic
framework of prepositional thoughts, and (b) their activation states embodying
concept elements. And I have further presumed that inner-syntax conditions (a),
or their abstraction bases, are mainly of the sort repeatedly referred to in
previous chapters as "locus structure." I have deliberately evaded specifics on theories
what that comprises, for,( of causality can as yet offer little more than open
speculations about i t . But it paradigmatically comprises those conditions 7 ,
notably space-time displacements or whatever else may constitute excursive
preconditions of causal connection, which appear as domain constraints on the
loci of events governed by laws written in the t-core detail formalized by
(9'), p. 35 above. So allowing "locus structure" to include monadic attributes
as well as polyadic relations, we can say that a causal system's locus-structural
ingredients are in essence just the properties (including relations) that figure
in its laws' domain preconditions once all t-derivational constructions have
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been written out of its variables.
lUihappily, since the metaprinciple of Domain Constriction allows properties
that are values of one law's variables to be domain preconditions of another,
this does not provide nearly so clear a division as we might wish between brain
regions' locus-structural properties on one hand and their activation-state model
features on the other. Even so, all that an abstract inner-sentence^requires
of a structure/activation distinction is for the multifarious characteristics
of brain regions to partition into two rather different sorts, one serving to
embody the syntax of prepositional thought while the other embodies elements
of conceptual content. Conjecturably, most of the former should appear as
domain preconditions in laws governing t-core mental events while the latter
are mostly values of those laws' process variables. But we need no strong
presumptions about that at this time, except that to acknowledge what I suggest
is a fundamental ontological difference between a causal la«*a-doaHii«precb«*
ditions and properties governed by production principles within that domain, we
should provisionally stipulate that properties which count as "structural" are not
to be analytically dependent on any conditions we treat as "activational."J
Although the inner-sentence model undoubtedly bears some nontrlvial resem
blance to the realities of perceptual constitution, I offer its present sketch as
no more than a simplistic heurism which needs at best extensive elaboration and more
likely major modifications. In particular, we have not considered how logical
connectives and quantifiers are to be encorporated in inner-sentences of supra-
minimal complexity. Even so, not only does it clarify what might be the nature
of propositionally structured percepts, and from there give ready access to
specific ways in which different percepts may be linked both causally and abstract
ively, its contrast with the yet-to-be-described "inner-picture" model of perceiving
valuably illuminates the most fundamental character of percepts and other thoughts,
namely, their subject/predicare articulation.
My previously-argued thesis that peripheral-to-central percept sequences always
commence with fully singular subject/predicate contents may well be overly extreme.
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let even the most logically complex perceivings are tokened by their relative-clause
descriptions to embed a subject/predicate structure regardless whether their subject-
slots are filled by determinate nominals or only by quantified placeholders. By all
rights, then, our key to unlocking the nature of perception should be found in the
functional/constitutional difference between subject and predicate in perceivings
of minimal syntactic complexity. So for intimations of generality as well as
brevity, let us shorten (58-5,6,7) to
(58-5') sees that this ^thing is R ,
(58-6») sees that this R-thing is B ,
(58-7") sees that this thing is Rly B ,
and contemplate their divergence.
The leading question about these percept descriptions is whether their
grammatical variance is not just linguistic paraphrase but reflects genuine contrasts
in perceptual content, as intuition urges. All three contain exactly the same con-
ceptual ingredients, but profess different apportionments of them between subject
and predicate. In the inner-sentence model of these perceivings, that distinction
is both real and perspicuous: For an observer-stage o of which (58-5') or (58-6*)
or (58-7') is true, a's brain contains two regions o* and o such that the activation
state of is, or abstracts into, the sensuous ideational content this-B-thine or
thi?-R-thing or just this-thine respectively (where 'this' tokens additional content
particulars which our descriptions of these contents cannot easily specify); the
excitation state of o^ i s , or abstractively includes, the sensuous R-idea or the
B-idea or the Rly-B-idea. respectively; and certain structural relations between
•a ^ establish whatever may be oj's content as predicated of whatever content
is in structural subject-position o*. Presuming that such syntax relations, even
if to some extent transient, come about more or less independently of content
activations in the brain regions so related, i t is clear that establishing <o*,o*>
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as a subject/predicate frame allows the prepositional content It contains in principle
to attribute any concept within the range of £^'s state alternatives t© any concept
in the state range of o^. This includes the prospect of o^-state/fi^-state feature
sharing illustrated by
(60-1) sees that this R-thing is KLy B ,
(60-2) sees that this Sly-B-thing is B .
(In these, as in ( 5 8 - 5 ' , 6 ' , 7 ' ) , 'thing' is best viewed as a ;contentless syntax ^
marker of subject-position.)
[if the Rly-B concept is a coordinate construction equivalent to R-and-B.
as in rectangularly-blue. the inner-sentence model allows the within-subject
structure of (60-2), or the within-predicate structure of (60-l) and ( 5 8 - 7 ' ) , to
be captured by ftirther partition of region o^ (i = a or b) into two locus-struct-
urally distinguished subregions o* = o* ,o^ >, with the states of and oJ_
respectivelj^embodjring the R-idea and B-idea, or more determinately a thip-R-idea
and this-B-idea. (Depending on just what is in content surplus this. S ^
may further partition into sub-subregions whose respective states split apart
various facets of this-R and this-B.) For such compounds, seeing-that-<^-is-
Rly-B analytically contains seeing-that-<^ -is-B (or seeing-that-this-Rly-B-thing-
ia-TS contains seeing-that-this-B-thiT^g-is- /3) by part/whole inclusion wherein the
first is embodied in a certain ensemble of structural relations and nonrelational
activation states of <2^»2^^»^^2> whose subarray just for <o ,S > constitutes
the second. In contrast, i f R in Rly-B is an "intensifier" of B, as in middlinp-
dark-blue or (te illustrate demonstrative qualifiers) in this-blue. the inner-
sentence model embodies both seeing-that-this- o<-is-Rly-B and seeing tbat-^-is-B
in the joint subject-state/predicate-state of the same region-pair <s.^f&^>t but
with the content of containing the Rly-B concept at one level of abstraction
and the B concept at a higher one.
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iThe itmer-seTitencf model also cheerfully accepts that all of (58-5',6',7')
might hold simultaneously for observer £, perhaps even in multiple embodiments.
For i f 0 contains several brain-region pairs *o*j,oJj> (j. = 1,2,...) with each
pair <o*j,£gj> satisfying the structural conditions for it to be a subject/
predicate frame, then similarity or difference among the subject-content
states of ^ 0 * ^ : j. = 1,2,...|, and among the predicate-content states of
[fi^j' 1 - 1»2,...^ is constrained only by nomic covariation, not coBptttvitieBal
overlap. Hence in principle, given a suitable configuration of causal ante-se-
cedents (which, however, might be quite difficult to bring about), <o2] ,fi|-j >
and <0*2*> might both contain that-this-R-thing-is-B. ^ ^ 0 * ^ , 0 ^ 3 / might
contain that-this-B-thing-is-R. and <£^^»£b4 * °*ight contain that-this-R-
thing-is-nonB or even that-this-R-thing-is-nonR. with this-R-thing being
the very same nominal concept embodied in the states of these various subject
locations within macro-observer 0 . J
V-
The inner-picture account of perception, on the other hand, tells a veiTr
different story about (58-5*,6',7'). This is the model that more or less identifies
percepts with stimulus-driven images, although I shall leave i t for you to judge how
closely inner pictures in rsf sense resemble what has been the focus of recent contro
versy (cf. Kosslyn, 1980; Pylyshyn, 1981) on the nature of imagery. According to
this model, seeing that-g(-is-/3is^i consists of o's having a brain region o* which
is itself the subject-component in this perceptual proposition and of which the
/Concept is predicated by 2*'s activation state being, or abstractively embodying,
content /3, What gives 0 * its particular nominal character (as distinct from what
this perceiving predicates of it) is some array of structural properties identified
so far as we are able by the 'o^'-locution (e.g., 'this-R-thing' vs. 'this-B-thing'
vs. 'this-Rlv-B-thing' for our present study cases, but also terms such as 'I',
'you', 'Mary', and 'the Smyths' in comjnonsense applications) in our description
of this percept's subject. Just what is to count as a "structural" property, as
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distinct from activation-atate features, remains widely open (cf. p , ,235f. , above)
for later explication in whatever directions the model finds most congenial. But
those structural properties of a perceiving's t-core locus that have been most
explicit, or nearly so, in traditional intuitions about inner pictures (see Kosslyn,
1980, pp. 32-35, 131-134) are its geometric shape, size, and position in space-time.
(Technically, the psychonomic shapes/sizes/positions of brain regions are undoubtedly
best defined mainly in terms of neuronal interconnectieftsiand humoral/electrical
capacities rather than physical space-time coordinates; but for the present overview,
physical geometry is most heuristic.)
In the inner-picture model, i f the sensuous R-idea and B-idea are, or abstract
from, brain-region shape and activation state, respectively, the t-core of obseirver
o's seeing that-this-R-thing-is-B would be some region o* of o's brain-stage having
an R-type shape while undergoing B-featured activation, (if you read R as rectangular
and B as blue, it should be intuitively clear how a brain region of a certain shape
that encodes rectangularity, and throbbing with the pattern of activity standardly
elicited by blue stimuli, can be viewed as depicting an external rectangular object's
being blue in color. Be clear, however, that this structural;property embodying
the rectangular-idea is not required to be a shape at a l l , much less one with right-
angled corners.) But i f R is structural while B is activational, it is then impossible
for any of o's perceivings to have a propositional content wherein the R-idea occurs
predicatively or which includes the B-idea in the percept's subject-component—^which
is to say that (58-6') and (58-7') in this case are either unrealizable or are
misleading paraphrases for (58-5 ' ) . Alternatively, i f the inner-picture model posits
that both the R-idea and the B-idea abstract from mutually independent dimensions
of neural activity in the same brain region, o*'s total activation state might embody
Rlj-B while the nominal concept of which Rly-B is predicated by o*'s having this
state may be no more than a bare demonstrative this-ness embodied, say, in region
£*'s space-time position. (More on this shortly.) But that s t i l l prevents
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(58-5',6',7') from being distinguishable perceivings in the inner-picture model,
for now (58-5') and (58-6') become misleading paraphrases for the syntactically
correct (58-7'). And ( 6 0-l , 2 ) , read literally, become impossible in either case.
The Inner/sentenee/inner-picture divergence is summarized with enhancements in (pp. 241a,b).
Table 1/ Yet that scarcely touches the ramifications of percepts being constituted in
in
the me format rather than/the other, Tl^^are best unfolded by contrafting how these
two sodel^ jife disposed to answer certain large questions of whleh I have bees \
flashing glimpses but have not yet laid out foursquare. To sharpen the bite of
these questions (which apply not just to percepts but to cogitations of all modal
persuasions), it is useful to acknowledge the commonsense essence of thought, named y,
its "intent!waality" or representational character. The epistemic job of our concepts
is to be about other things and from there to form propositional compounds which, in
some though not all modes of entertainment, comprise our "information" about selected
aspects of the outside world. I have already argued (pp. 137ff., 140f. , above) that
our understanding of representational aboutness is s t i l l far too . dim for this
notion to be admissible in any basic *law of mentation. But competing models of
perception can be valuably illuminated by their contrastive implications regarding
what, in an observer o's external surrotmd, could reasonably be represented, under
some yet-to-come explicatloB of aboutness, by what aspects of ^'s total perceptual
condition. - —
Pwrauant to our focus on the Tully^ingu^^ .
urged are prevailingly i f not exclusively the contents of primary percepts, we can
safely presume that whatever is represented by £'B tmithful seeing that-«<,-is-/3ish
must be SMae event, a's-having-^, such that _2's o(_-concept and /3-concept respectively
49
stand for (designate, signify, refer to) object a and property B. (Given these
iq concepts
^^The representation of properties by predicate-/^ is semantic-theoretically very tricky, owing first of a l l to the murky ontology of properties (see fn, 15, p. 99 above) and secondly to the failure of predicates to function grammatically like nominals—which is why I prefer to say that predicates "signify" rather than "refer."- I trust that you will not begrudge me a certain initial glibness in this matteri^high will to some extent be ahfd as we proceed.
TABLE 1
IDEALIZED INNER-PICTURE VS. INNER-SENTENCE MODELS OF A PERCEPTUAL EVENT, ©'s-seeing-that-tK-is-/3ish.
Common Premises;
01. The t-core of o's-seelng-that-oC-is-/31sh is a molar event, o*'s-having-^^, in which o* is a possibly-
scattered region of obseirver o's brain-stage, and P^ is some complex pattern-property of £*. The subregions
^OjJ in any mereological partition of £* are in all likelihood distributed in time as well as in space.
C2, The properties (including relations) of o* andlts subregions are of two disjoint kinds, structural
and activational. at all levels of molar abstraction. We leave open the substantive nature of this diff
erence except for the understanding that any molar property is activational i f its abstraction base rion-"'
vacuously includes any micro-property that is activational. (Thus the micro-conditions i jon which activity
patterns supeirvene standardly include structural properties, whereas conversely, structural properties do
not supervene even in part upon activations.)
NoHPerceptual example. Suppose that o* is a pigmented surface patch partitionable as a disjoint
array ^o|J of roughly-square subpat©hes. Then paradigmatically, the shapes, sizes, physical
locations, and inter-patch distances of these ji | are micro-structural properties which abstract
into the shape, size, and location of £*; the "activational" properties of o*'s subpatches /Sj}
include their respective local pigmentations; and the degree to whiCih o* as a whole is checkered
in pigmentation—a nonmentalistic counterpart of perceptual pattern ^ — i s a molar activational
property of o* which supervenes upon both the pigmentations and the structural features of fojJ«
(For details, see Chapter 5, p. l62f.)
T^ Inner-Sentence Paradigm t
SI, The t-core locus of £'s-seeing-that-o(-is-/3ish is a pair of subregions, o* =<S^t^>, such that F(i2*,og)
for some special complex structural condition F(_i_) on pairs of brain-regions. That ife, F is a compound ^
of structural properties which includes at least one (anti-symmetric) relation. Structural condition E(_,_)
is the psyohbnomic embodiment of subject/predicate form, the two open positions therein providing for
insertion of subject-content and predicate-content, respectively.
The subject-content and predicate-content in o's-seeing-that-«?<,-is-/iish are certain activity patterns
oC and fb, respectively, in o*'s F-demarked subject-location o* and predicate-location o .
P^, the propositional content in o's-seeing-that-<j)^-is-/3ish, has the relational composition P (x,2;) =
£(3t>l)^ j3{z)' ( ' 2 ' ancl here are logical placeholders.) Hence the t-core of £'s-seeing-that-
*<-is-/3ish has composition P^(o*) = F(o|,og) & o((o*) & /3(og).
* The proposition in o's-seeing-that-o<-is-/Sish is just P^ itself, i.e., is the same as this perceiving's
propositional content.
Logical complexity within the <?<.-concept or /3-concept is similarly embodied by structural relations
and local activational properties of disjoint subregions of 0 ^ or o^, respectively.
Inner-Picture Paradigm;
PI. The subject-content in t-icors'o*'s-havin«g-P^ of b''s-seeing-that-oC-is-/3lsh is a compound F^(_),,of £^^8
structural properties. In principle F^ includes specification of o*'s location in space/time or some
neural-connection counterpart thereof, and in practice is expected to do so.
The predicate-content in o's-seeing-that-o<-is-/3ish is an activity pattern /3 of 0 * as a whole.
f3» f^, the propositional content in o's-seeing-that-o<-is-/3ish, has the conjunctive composition £^(2[) =
F^(x)&/3(x). Hence this i perceiving's t-core has composition P (o*) = F^(o*) & /^(o*).
?A. The proposition in o's seeing-that-o(-is-/3ish is the event o*'s-having-P^^, i.e., o*'s-having-both-F^-
and-/3. iThe depictive model of propositions has two other main variants?. One, adopted in the
text for simplicity, holds that the proposition here is simply 0*'s-having-/S but with the oC-concept
included therein by virtue of F^ being in the "nature" or "essence" of o*. The other.takes pattern
£^X,.)&/3(_) to be itself the proposition, ih. |)rlm9 fa.oie agreement with S4 of inner-sentencing. 1
P5. The sub-events from which 0*'s-having-P^^ abstracts are also t-cores of other perceivings by 0 , as
developed in the ^Principle of Dense Depiction, p. 24-5 below.
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designatloris by and /9, we can forego presumption of truth by saying only that
this percept represents object a as having property B.) So there are three sorts
of sub-propositional representation to be provided for by a model of perception:
that of properties by predicate-concepts; that of objects by nominal-concepts; and
finally—the ultimate challenge of propositional "structure"—representation by
internal syntax of the compositional nexus that integrates compound entitles. By
"compositional nexus" I mean above all the Exemplification tie of objects to their
attributes, and Co-exemplification of two or more attributes in a common bearer of
them as distinct from their looser co-presence at different locations in a common
scene. But other important instances are the connection between a molar object
and its mereological parts (e.g., the inclusion of John in John-and-Mary), and an
attribute's embodiment of its higher abstracta (e.g., containment of rectangularity
in squareness.) With these points in mind, let us see how the inner-sentence and
inner-picture models compare in their views on how densely, and with what sort of
segregation, an obseirver's simultaneous perceivings represent his surround; what
limitations there may be on what can be perceptually represented either predicat
ively or nominally; whether the objective world's compositional nexus is literally
reproduced or is more flexibly represented in perception; and finally, in a coB!5)lex
intertwining of semantic issues, the extent to which perceptual demonstratives
may be radically particular.
Representation of compositional connectlop.
What I have labeled "inner-sentence" and "inner-picture" models of peroei-iring
are, of course, frameworks open to considerable arbitration in detail. But what I
take to be generically definitive of inner-picturing is its auto-representation of
(inter alia) Exemplification, Co-exemplification, and Part/Whele Inclusion, in con
trast to what, for want of a better word, may be called the "extrinsic" represen
tation ef these integrative couplings by inner-sentences. Regarding Exemplification,
inner-picture models take £'s seeing that-«:-ls-/3ish to be a depiction of some
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a'8-having-B through £'« containing a brain-region whose position, shape, size,
or other still-unknown structural features somehow pick out object a as the external
referent of £», while o*'s actlTation state embodies a certain abstract character
fh which, under some still-obsctire principle of predicate signification, stands
for external property B. That i s , the event a's-having-B is here depicted by the
event (g(*'s-having-/3, with the observer's brain-region o* itself being the nwaiinal
(i.e. p<-concept) in this percept's propositional content even though there remains
a story to tell about how the reference-fixing structural properties of o* figvire
in our description of this percept and not merely fix reference but do so in part
by representing certain structural features of a. And i f this percept's predicate-
compenent is a conjunction, / ..ish-and- y ^ h. of concepts ft-y^ axid. t^at respect
ively signify properties B and.B , what depletes a's§|»viiRg-Bj--a ^
both-^?aad-/^. That is| <3o-exempllfie B is here represented by the
co-presence of patterns /^^ and in the total activation state of the same brain site.
Iln a varian* of the inner-picture model to which summary statement ?U In
Table 1 gives lead billing, we can say that when a's-being-B is perceptually
depicted by 's brain-region o*'a having activation character /3, what we
refer to by the nominal phrase 'c<' when describing this percept's content
as that-g<'-is-/3iah is not in itself as a bare ontological particular
but its structural condition that selects a as„the object'this percept
is £f. So construed, the percept's subject-content is like its subject-content
in that both are prima facie attributes albeit of different kinds that are
inflexibly nominal and predicative, respectively; representation of a as having
B now becomes co-exemplification (by o*) of structural features F ^ and acti
vation-state abstraction fh; and the o< -concept can be viewed as not just
referring to a but also representing certain st*^Bbui^ pro^rties of a—albeit
hsa Fji. represents those may well be rather different from the manner in which
/3 represents B. It is unclear whether these two variants of depictive repre-
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•entation differ in anything beyond their manner of speaking.In any case,
they agree in representing objective co-exemplification of attributes by co-exemp
lification of brain-regional activity patterns that respectively signify them,])
The most important technicality in this is a stupifyingly recondite ontological puzzle: When o* has structural condition F^, is the latter just an accidental (contra essential) possession of o*, or does Zol inhere in o*'s being the particular object it is even to the point of o*'s being virtually identical with F^? To be specific, suppose that L ( £ * ) is £*'s complete space-time location (i,e, what is specified by the totality of position coordinates for points within £* ) , while o* is whatever we refer to by some descriptor such as 'The neurone-stage from which we got the first micro-electrode reading in subject No. 3 yesterday'. Then does £*^s-having-location-L(£*) consist in some substantival inhabitant of container space-time, namely o*, having L(o*) as a predicable accident, or might it not be instead that the subject of predication here is location ^(o*)—i.e., perhaps L(o*) and £* are one and the same—while ovir nominal 'The neurone-stage from which ...' designates L(o*) by citing an individuating collection of qualities at that location. Whatever the ontological truth in this matter, it seems highly dubious that £*'s-being-at-L(£*) is an event of the sort that arise as effects in causal processes. We should look for this to figure in nomic conditionals not as a production but only as a domain precondition— despite the proclivity of classical physics to treat spatial location, split off from temporal position, as a dependent variable.
In contrast to depiction, the inner-sentence model conjectures that repre-
sentation of a's-having-B in o's-seeing-that-c<-is-/3ish consists of fi's containing
a brain-region pair *o|,og> having structural features—especially relational ones—
that make them a subject/predicate frame while the c3(-concept and /3-concept are
embodied in the separate activation states of and o^, the nominal neither exempli
fying the predicate nor being co-exemplified with i t . Rather, the outer-world
ExeBplificatien in which ob^t £ stands to property g is represented in this model
by soJiB^quite different relation, one not also Involved in the I'a-having-fi event,
that holds between one brain region whose -patterned activity refers to a and
acme other brain region whose /S-patterned activity signifies B. And i f this
/3-predicate is a conjunction /Sj -and- /S^ish. the inner-sentence model partitions
2 as two disjoint subregions, and o * whose activation states respectively
embody the /^^ " ^ °°"°®P'''S while some structural relation between o ^ and 0*2
(which needn't be more than and 0^2 aach being linked with a common 3^ in what
ever fakhion constitutes an inner-sentence subject/predicate frame) demarks this
subframe as a conjunctive predication. Note that and here could well be the
complete activation states of o ^ and 0^2* respectively, whereas this conjunctive
predication's depictive construal requires and ft2 to be noncompetitive proper
abstractions from the conjplete activation state of a common 0 * .
As for Part/Vhole Inclusion, which figures importantly in the ^Principle
of Dense Depiction immediately below, the inner-picture model takes object-a^'s-
being-part-of-object-a2 to be perceptually represented by a pair <o*,o > of brain
regions such that is physically a subregion of o| while each 0 ^ (i = 1,2) has
the structural features needed to make the referent of 0 * in an ordinary subject/
predicate depiction. In contrast, the inner-sentence paradigm of o's seeing
that-o^j^-is-part-of-o<2 would be o's containing a brain-region triple •«o|^,o|2»2b>
whose structural layout establishes o| and 0^^ as subject-positions to which o
is attached as a binary predicate-position, while the activation states of jjj^,
moA H* respectively ert)ody the j 'j -concept, •^2~^^^*P^» BlC^fiC concept
which in turn respectively stand for the external a-j -object, a2-object, and aer#e-
logical-inclusioh relation. With appropriate adjustments of £*'s activation state,
the same format holds for inner-sentence representation of any other external
relation between objects a-| and £2.
P rcgptv aJ• density aijd segreR^tlon.
Whenever an observer perceives that-o(-is-y5ish (where o( may be an a-tuple
<o(i* • •' fo(^> an<i /3 an n-adic relational predicate), any a's-having-B event represented
by this percept is necessarily accompanied by many others which may be called its
"factive concommitants." Since we do not here require a careful account of this
notion, I shall declare somewhat arbitrarily that the factive concommitants of
a's-being-B comprise all a's-having-Bj events wherein a^ is either a itself or is
a mereological part of a. (l would prefer factive concommitance to concentrate on
events that are supervenient on the same array of external micro-events from which
a's-having-B abstracts; but that restriction is hard to pin down.) Then the question
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of perceptual "density" concerns the extent to which, when £ truthfully perceives
that-of-is-/6ish, the perceivable factive concommitants of the event this percept
represents are also represented in o's synchronic totality of percepts. (We dis
regard factive concommitants that seem beyond the reach of perceptual representation
in real li f e , such as quantum-mechanistic states of a's individual atoms.) And
perceptual "segregation" concerns the extent to which the arrays of neural micro-
events which respectively constitute o's perceptual representations of different
factive concwranitants of the same a's-having-B are disjoint.
Intuitively, inner pictures are ij iaeaaat repreSentatlb]^ in that each part of
an inner pictiire represents seme cerrespoHdlaf. part of the lairger refRent represented
hy the picture as a whole (cf. Kesslynv 1980 p. 33). More specifically,
*Principle of Dense Depiction [PDDl. If a's-having-B is perceptually rep
resented in observer o by an inner picture wherein o's brain-region £^ refers
to a by virtue of o 's structural properties, then for any brain-region £*j^
that is a physical part of o*: (l) o* has structural properties by virtue of
which 0^^ refers to some part a^ of object a. (2) Each simple or complex feature
(predicate-content) fi^ abstractively embodied in o* 's activation state signifies
some property B such that o^^'s-having-/3j represents a^ as having B^. (3) If
S^j,'s-having-activation-feature- / ^ represents a^ as having property By and /3j
in turn embodies a higher-level abstraction fiy then there is some property Bj,
abstractively embodied in B., and signified by /3', such that o* 's-having-/3'
represents a^ as having Bj. (4.) More generally, let f i ^ ' i ^ ^ ^ ® partition
of 0 * into subregions while i£ i] is a corresponding array of activation
states or features thereof such that, given the structural relations among j i ^ ' ^
subregions [fi^j^]* the array of events [s^^'s-having-: i S i ? abstractively entails
*hat £^ ta« an activation-atate featu3Pe /3 which signifies property B. Then i f
/Si* i« ^\s the properties respectively signified by //3j[ J, the relevant
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structural relations among fo^j^l correspond to structxiral relations among
a's parts ^a^J respectively referred to by {o^j^| given which the collection
of events 8 's-having-Bj : i e ^ I abstractively contains a's-having-B.
I Notes; PDD Clause 4 says simply that o|J's-having-/3 depicts a's-having-B only
if the more basic events o^j^'s-having-ySj^] constituting £^'s-having-/3 respect
ively depict events aj^'s-having-B^| from which a's-having-B is constituted. But
its wording studiously evades details of how structural relations among the chosen
parts of 0^ on one hand, and those of a on the other, figure in this stoiy. Clause
3 is the special case of Clause 4 wherein fOjJ^J comprises just j^^ itself. 1
This ^principle is tagged with a truth-suspension asterisk because hot merely is it
contentiious whether propositional representation is ever depictive at a l l , neither
is there evident reason why a sophisticated theory of depiction cannot put qualifi
cations on Clauses 1-4 in light of deepened insight into the nature of nominal
reference and predicate signification. In particular, inner-pictures must surely
be granted a "grgiln" threshold such that parts of depiction site 3^ which are sub-
grain in size are exempted from FDD requirements. Until such time as we discover
what qualifications are appropriate, however, we can take PDD as given to idealize
intuitive prerequisites for a manner of representation to count as "depiction.
is deducible from defining depiction in terms of isomorphism between micro- ; events sufficient to constitute a's-having-B and micro-events constituting £^'s-havlng-/5. But there may also be less extreme versions of inner-picturing, not so simply definable, that also merit consideration as models of depictive representation.
Meanwhile, it should be clear why representations governed by FDD are dense. For i f
a's-having-B is depictively represented in £'s perceiving by JJ's-having-/3, then a
rather large proportion of the perceivable factive concommitants of a's-having-B
should be represented simultaneously by o's percepts. Moreover, all these depictions
take place within the same brain-region 0 ^ , one nested in or more generally consti
tuted out of others, in principle leaving many other regions in the remainder
of o's perceptive brain-stage free to be sites of other inner-pictures in 0 .
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In contrast, the inner-sentence model tells a very different story of
perceptual density and segregation. For i f a's-having-B is represented by £'s
brain-region pair <2al* -bi^ being structured as a subject/predicate frame with the
activation states of o ^ and jj*^ respectively embodjdng representations oc of a
and fi of B, then £ generally needs a different brain-region pair <£^2*°b2^ *°
contain representation of *s-having-Bj even when a^ is part of a. (Exceptions will
be acknowledged- in a moment.) So the inner-sentence model is representationally
sparce in holding that when o's perceiving that-o(-is-/3ish represents a's-having-B,
o's simultaneous that-o^j-is—/S^ish per43eivin| of any factive concommitant a^'S-having-
Bj of a'srhaving-B, i f present.at ail-atHlst generally arise from a eaaaal process *bieh
at some step splits off from and becomes parallel to the sequence productive of a's
perceiving that-o<-is-/3ish. Even so, it is not mandatory for an inner-sentence
model of o's simultaneous seeing that-o<-is-/3ish-and-that-oCj^-is-/9jlsh to separate
these percepts completely no matter how closely connected are the objects a and aj
referenced by nominal concepts c< and oi^, or how overlap|)lng arf the propertiea:! and
Bj signified by predicate concepts /I and /iy In particular, i f the ^-concept and
e<j -concept, or similarly /3 and /iy are structurally complex with components in
common~e.g., i f is John-and-Mary while is John, or /3 is rectaneularly-blue
while is blue—the brain regions that respectively contain o( and o^^, or /3 and
fly are allowed to have subregions in common containing the shared content. And
the counterpart of 32 Clauee 3 la arguably true of inner sentences aa well.- That
la, « a M ••rsionat ef this moJil may adKLt a limited density ef pwreeptual repreaen-
tation in that an inner-sentence which represents object a as having property B
perhaps abatractsp-into arbitrarily many representations of a as having various
higher-level properties supervenient upon B. Indeed, inner-sentence theory needs
soDtething like that i f , as we provisionally accepted earlier though are s t i l l pre
pared to retract, seeing that-this-is-dark-blue entails seeing-that-this-is-blue.
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iFor reaaons sketched later (p. 278), howerer, any constitutional model of
perceiving generally does best to put sharp constraints on the abstractive nest
ing of contents it allows. A prudent inner-sentence model would strive for such
constraint along lines something like the following: When the inner-sentence
embodiment of o's-seeing-that-E consists of o's disjoint brain-region tuple
<o|,o^, being structtired as a propositional frame over which that-p's concept
elements are distributed as distinctive activity patterns in the various o^ (i =
a,b,...), only one abstraction 9^ from each o*'s activation state satisfies the
criterion (whatever that may be) for 7^ to be a concept. Then an abstraction
from the macro-event of <li ,o ,••.>'s total structural/activational condition is
an inner-sentence perceiving nested in £'s-seeing-that-E just in case it is
i:'(O*)&P(0*) for some subtuple p(S») of the events <7^(o*), ^^,(2^),.. and
a complex F' of structural properties whose possession by subtuple 0* of <o*,
og, . . .> qualifies 0* as a propositional frame in its own right. For example,
suppose that E's-seeing-that-this-apple-is-brown-and-bruised has inner-sentence
embodiment S(o*,ogj)&Z(O*,O»2)&O<(OQ)&/3J^(O*J^)&/32(O»2) wherein o( and ft^
are the concepts this-apple. brown, and braiaed. respectively, and £(_,_) is the
structure of a monadic-predication frame. Then this perceiving also contains
perceivings F(o*,o^^)&«<(£j)&/ij^(o*j^) (i.e., o's seeing that-this-apple-is-brown)
and F(E*,£^2)*<<^£|)*/^2^^b2^ (i.e., o's seeing that-thls-apple-is-bruised), but
no others. As for our running adjectival test case, whether seeing-that-this-
book-is-dark-blue contains seeing-that-this-book-is-blue under our posited con
straint on inner-sentence nesting depends on whether this compound predicate
embodies dark in a site disjoint from that of blue. That might be so f©:! some
predicate modifiers verbalized by adjectives but not for others.!
Even i f inner-sentence predicates do provide densely nested representations
of external abstraction hierarchies, however, it is s t i l l possible that inner-
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#sn1;efeces caii^perceptually--segregate ^fferetit lav abstraction. To bring, out
this point's essence with BainiMl distraction,.let m_-»6^ (much more
strongly than necessaic^) that i,f'.the"" activation state of anylpredlcatiivelystruetu^
brain-region £g Ffl-joperlyiAbstraets into a pattern /3 atgnlfyl^gan external faroperty
B, then B abstracts from some more determinate property B* signified by\2*'s total
activation state. Then inner-sentence perceiving is able to segregate levels of
property-abstraction i f in general, when the total activation state /3* of o's brain
region o signifies an external property B* while an abstraction frran /3* signifies
a higher-level property B embodied in B», o's brain is also able to contain a predi
catively structured region 2^^» distinct from g^, whose total activation state
signifies B without signifying any more determinate external property. Commonsense
intuitions about the "information loss" that progresses as pre-perceptual input
evokes percepts which in turn produce more central cogitations and occasionally
eventuate in verbal reports make clear that any reputable model of thinking must
allow higher-level predicate concepts to be detached somehow from lower-level embodl-
ments thereof. But whether abstraction levels can be segregated only by successive
stages of post-perceptual ideation or whether these can instead occur in perceptual
parallel, either simultaneously or as competetive alternatives akin to ny potential
uttering either 'This is dark blue' or 'This is blue' but not both, is a psychontatdc
issue that remains widely open.
Flgx^biJ-Jty £f representation.
We have already noted that inner-picture models of perception draw a hard
line between, on the one hand, concepts that can occur predicatively in a percept's
content and, on the other, whatever is characterized by the subject-phrases in
ordinary-language descriptions of propositions. In prospect, therefore—though how
that potential is realized depends greatly on details of our still-to-come theory
of aboutness—inner-sentences should be capable of representing many external facts
(though not of course all at once) beyond the representational reach of inner-picturir^-.
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Thus when a is a rectangular blue book, i f an inner picture can represent shape
only nominally by some structural feature of the picture's locus, o*'s-having-/3
can depict a's-being-blue by embodying the proposition that-this-rectangular-thine-
is-blue but, unlike an inner sentence, cannot depict a's-being-rectangular by
embodying a proposition in which the rectangular-concent occurs in the percept's
predicate. And neither can perceiving tiiat-this^-yellow-ls-more-intense-than-
thiSg-green be a depiction when its thiSj^-yellow and this^-green nominals refer
not to physical objects but to particular shades of color displayed nearby. For
representation of fj^ish-yellow and l2ish-green by the activation states of a's
brain regions of and o* would give o an inner picture only of one object's being
|]^ish yellow joined by another's being $2^^^ green.
Moreover, strong limitations on the range of predications available to
inner-picturing are also imposed by Clause 4 of FUD. For what that says is essentially
that any molar property signified by the global activation state of a depiction locus
£^ must be constituted out of whatever properties are variously signified by the
local activations in o*'s subregions. (if overt speech were like this, we could
not truthfully assert 'Those are cattle' unless we refer to something that is
partly feline.) In contrast, when £^ is the predicate locus of an inner-sentence
frame, even though £^'s activation state is constituted by the assorted activities
in £^'s parts, these subregion states are not themselves required to represent
anything (though auM nay do ae i f jn 's relevant structural properties sake it
syntactically CM^lex) and hence place no inlMreiit constraints on what the acti
vation state of as a whole can signify.
Demonstratives and t^e targeting of perceptual nominals.
Reluctantly but resolutely, I must advise you to pass over this subsection (pp. 249-274) unless your interest in the semantics of demonstratives or the logic of depictive representation is much deeper than casual. The issue of demonstratives is a large digression from this book's objectives that I would
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gladly forego. But it obtrudes in almost every real-life verbal report of prepositional perceiving and raises disturbing questions about the extent to which perceptual information can be communicated even in principle, especially by inner-pictures. Like a toad in the soup kettle, once noticed it cannot be ignored but must be disposed of.
(There is , to be sure, a classic way to avoid detecting the demonstrative toad in the first place. That is to take as our paradigm for percept-description the mixed objective/intentional form '£ sees a as /3ish', wherein 'a' refers not to any component of £'s mentation but to an object that £*s percept is about. Yet paraphrasing this form as *£ sees of a that i t is /3lsh* makes clear that percepts so described s t i l l require o's perceiving to include a propositionally structured thought which perforce contains something to bring off reference to a. Commonsense likes the 'o sees a as /3ish' form precisely because it allows us to conceive of a in any way we fancy without concern for how £'s percept does this,)
Unhappily, despite the facile simplifications with which I shall dispach this matter, the account is s t i l l so long that i f you become caught up in i t you will have quite forgotten the main currents of this chapter's development by the time those return. But if you will later allow me to treat the subject-content in o's-seeing-that-c<-is-/3ish as paradigmatically having compositioB o<- = T^&7^ without saying much about its nature beyond that ;^ is a predicative concept nom^alized by some inner-syntax adjunctive T^ of a "target marker" sort hypothesized to underlie such English locutions as 'this X-thing', 'the X-thing', and 'a X-thing', you can skip directly to p, 274 without essential loss of continuity. (Do retuni to these passages eventually, however. The position they develop is rather important for the theory ef representation even i f you find it objectionable.)
Our two idealized models of percept constitution also clash instructively
in their paradigms for the character of whatever is expressed in perceptual reports
by demonstratives. This question proves to be a wonderous snarl of multi-tendriled
issues whose sorting out much diminishes the initially large apparent divergence
between their inner-picture, and inner-sentence accounts. But model-Contrasts
will not be our main concern for some time. Eventually we want to appraise the
relative merits of inner-pictures vs. inner-sentences for doing the work that folk
psychology expects of thoughts. But first we had better put some perspicuity
into the representational intricacies underlying our use of demonstratives.
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Qrdlnary-language efforts to report the propositional details of perceivings
almost always include demonstratives—'this', 'that', 'those', 'here', 'there',
'now', 'I', 'you', 'it' , 'us', 'them', etc.—in their locutions for perceptual
contents. There is evidently something special about the semantics of such terms,
as shown by the fancy linguistic footwork incurred whenever we attempt to share
knowledge of perceivings so described. For example, suppose that I want to tell
you about an overly observant subject in a deception experiment I have been running.
If I state
(60-1) Jobn said, 'I see that year apparatus la slsrecording ny score' ,
reproducing therein the sentence that John himself used to convey his observation,
I am telling you only what words John uttered, not what_,I infer from these to"have
been his percept. To describe the latter, I heed something like
(60-2) Johrf saw that my apparatus was misrecording his score ,
whose that-clause differs from John's own percept-description both in its tense
(tes^ral demonstrative) and its reversal of the personal pronouns. And for you
to assimilate this information, you must in turn recast (60-2) into,^ay,.
(60-3) John saw that Rozeboom's apparatus was misrecording John'j score ,
which eliminates pronouns in favor of a that-clause that jg^serves representation of or less) the
(more / same deception event witnessed by Jojm only at the .price of considerable
. depart\ire from the subject-content in John's own perception_:thereof. Note ih: i>ar*
ticular that j(60-2) and (60-3) sacrifice reference to the specific^moment^in time,
verbalized by the tense of John's report, that was now for his perceiving. Were we
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t© try for that same temporal specificity, we would need to expand (60-3)'s
that-clause Into something like 'Rozeboom's apparatus mlsrecorded John's score
at 2:17 p.m.. May 7th, 1985', exploiting therein chronometrlc concepts which
played no role in John's own awareness then.
The hallmark of demonstratives in perceptual description, then, is that
they travel poorly i f at a l l . But is this a genuine cognitive phenomenon or merely
a practicality of surface language comparable to the ambiguities and context depend
encies so often found with other words? If it merely illustrates the "anaphoric"
use of demonstrative terms as local synonyms for non-demonstrative phrases uttered
elsewhere, i t would have little to do with the nattire of perception. And although
perceptual reports can seldom be freed of demonstratives by paraphrase in any public
language, that may only show the expressive poverty of extant social communication
systeHBB. So a useful foil for debate in this matter is the contention that in
principle, were we to develop an ideal language containing an unambiguous word or
phrase for every^concept we are capable of thinking, we could describe all our
perceivings without resort to demonstratives.
Now clearly this eliminabllity thesis has some merit. When I see that-thls
yellow-is-more-intense-than-thiSg-green, for example, only my meager color vocabulary
precludes verbalizing this by a context-free content clause of form 'that-lj^ish-
yellow-ls-more-intense-than-l2ish-green' with as much precision as my self-reports
ever manage. Each nominal component of this proposition appears to be a concept
that can be repeated in arbitrarily many different perceivings while referring
throughout to the same determinate shade of color. From there, it is atraight-
foiT*ard to envision models according to which your hearing me utter 'I see this
yellow as more intense than this blue', together with your observing my gestures
and the colors of nearby objects, evokes in you the opinion that-it-appears-to-
tbi8-guy-that-$j^ish-yellow-is-more-intense-tban-l2i*'h"gr®®n, or its kin, wherein
the Ij^ish-yellow and l^i'^h-green concepts are copied (nevermind how accurately)
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out of your current perceptual experience Into your judgment about how these
colors appear to me. Your $]^ish-yellow and t2^sh-ereen concepts so recruited may
well differ appreciably from the corresponding components of tc^ own percept, but
they can also be nearly the same If our perceptual mechanisms are similarly tuned.
More commonly, however, paraphrastic eliminabllity of demonstratives from
perceptual reports seems dubious even with the resources of an ideal language.
When John has the percept he reports as quoted in (60-1), its component repre
sentations of the Rozeboom-stage and John-stage that he expresses by 'your' and
'my' may indeed include conceptual ingredients describable by English adjectives.
(E.g., balding, mes^y-labcoat. and peeking-surreptitiously-over-elipboard might be
fragments of John's momentary you-concent.) Yet beyond that, an essential facet
of these percept eosapenents is prima facie simply their being there, rather than
somewhere else, and accomplishing reference thereby in some fashion fundamentally
different from that of concepts whose referents are retained across repetitions.
Most starkly this seems true of the pow-concept expressed by the tense of John's
report; and the same nearly featureless indexicality—a bare "deictic" function
(Lyons, 1977, p. 637f.)—can be seen la other percepts that represent spatial
locations by^^ententa verbalised as 'here' and soafetlmes an unqualifiad *tl^a'.
First-person |a4BittiSaB ;«|j«|f as largely deictic, albeit what these pick^out on
their various occasions of usage remains enigmatic.
The mystery of demonstratives begins with their operation as linguistic
devices and cannot be fathomed apart from some psychonomic account of verbal communi
cation. In particular, whatever is context-sensitively distinctive about how demon
stratives convey ideation needs to be separated from whatever may be special in what
they convey. The latter, our main concern here, turns on the extent to whlcrh
mental representations can be shared; and I shall sketch only such idealized
fragments of the communicative process as are required to anchor that pivot.
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The first of these fragments posits that when I verbalize a sentence
sees that p' tinder standard communicative circumstances, my aim is (a) to inform
some hearer og* say you, about a certain perceptual representation activated in
observer o-j , say me, and (b) to do so moreover by evoking in you, as part of the
message conveyed, a simulacrum of the representation in me (i.e. o-|) that this
message is about. Let o 's-having-P ^ be the t-core of my to-be-communicated
seeing-that-2, where o£ is my brain site for the propositionally patterned property
P^ that constitutes my perceiving's content. (More technically, take P^ to be the
t-core pattern in the thinking-that-2 which abstracts from my more modally determ
inate seeing-that-2.) And let o|'s-having-P2 be that part of your message-induced
awareness of my-seeing-that-2 in which your simulacrum of my perceptual representation
is localized. Then the more closely o|'s-having-P2 resembles o^'s-having-P^ in all
representationally relevant respects, the more ideally I have communicated my
seeing-that-£ to you.
ISaying in this case that I aim to give you a "simulacrum" of ny that-p
thought condenses two important points that a serious study of communication
would probe in detail. First, when I utter a sentence '3' to you, i t is
almost always my intent (latent i f not phenomenally conscious) to activate in
you a thought whose representational character is similar, in major albeit
s t i l l obscure respects, to my own active ideation for which 'g' is an expressive
vehicle in my language. (This is true even when, deceitfully, I endeavor to
give you a mode for this shared thought-content different from mine.) And
secondly, when my utterance has embedded-sentence form 'o^ sees that £' (where
'sees' can just as well be any other Psi-verb), a prominent component of the
propositional content that-p^ this elicits in you is essentially the same
proposition that-^ you would have received had I uttered just 'g'. (That
oversimplifies a bit when 'p' contains demonstratives and 'oj^' is not first-
person singular—cf. (60-2)—but it captures the gist of standardly intentional
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Psi-verb conmiunication.) This embedded proposition is (part of) what my
communication as understood by you is about; but your received information
that-p^ contrives to designate the that-Pj^ idea by literally exhibiting it
within your representation of me as seeing-that-E^. This is a remarkably
special style of reference that is possible only when the object represented
is mental, and even then is not available for communication about most
thoughts which a technical science of mind might seek to study. Thus in
particular, were you and I privy to a specialist vocabulary f Pj 'J of percept
identifiers defined by advanced perceptual theory JLn;terms of their purported
referents' distinctive psyfSfeonomic ftmctions, my telling you 'gj has percept Pj^'
should evoke in you ideation that simulates the information state in me that
initiates this communication (Point One), but does not thereby induce in your
thinking either a literal recurrence of Pj or any functional near-equivalent
thereto (contra Point Two). Only in the semantically atypical but commonsens
ically prominent case of communicating mental states by that-clause completions
of Psi-verbs does your received information ideally include a simulacrum of
the repreaentation represented.^!
A prospectus ia the philosophy of mind. Suitable expansion of this point, that a technical science of mentality seeks to talk about thought contents without in general representing them by simulacra such as invoked by our commonsense language of intentionality, largely resolves various problems of "subjective qualia" which are so often alleged to defeat functionalist/materialist accounts of mentality. But here is not the place to develop that claim*.
But what are these "representationally relevant respects" which make for
ideal sharing of thoughts and motivate describing your received information about
my perceptual representation as containing a "simulacrum" of the latter? Above
al l , one is my percept's conceptual content while another is its factive object.
And what makes information sharing so tricky is that our agreeing in one of these
respects may preclude agreement in the other.
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Specifically, two communicative ideals are possible here, the real-world
incidence of near-approaches to which need not concern us. Giving name to the
first, let us say that your o|'s-having-P2 simulacrum of nty o|'s-having-P] repre
sentation is (ideally) sympathetic i f f Pj = P] . That i s , stated loosely, your
reproduction of my perceiving is sympathetic i f f its ideational content P2 is the
amm as mj perecptoal content j ^ . (Bo net pretest that yovir -thought could
never approach the sensuous quality of my £-j^-percept. Commonsense insists that
perceiving-that-£, hoping-that-£, surmising-that-g, etc., have something that-p-ish
in common; and for present purposes it does no harm to presume that even if the
complete activation state of ii y perceptive brain-region 0 * cannot be reproduced
in yovir o|, P-j is an abstraction from oj's total state that also abstracts from
certain states possible for o*.) And for the other communicative ideal, say that
your o|'s-having-P2 simulates my oj's-having-P-j objectively i f f what these two
mental events are respectively about is the same for each. That i s , when the
factive referent of my seeing-that-g is a's-having-B, the simulacrum of this
evoked in you by my utterance 'I see that g' is objective i f it too represents
a's-having-B. For you to be perfectly informed about nqr perceiving, we would
like your simulacrum to be bot^ sympathetic and objective. But to what extent
is that possible?
The answer tums on whether oJ' s-having-Pj^ accomplishes representation
solely through the conceptual pattern therein, or whether the entire event is
required. If it is just the propositionally structured property P^ which represents
a's-having-B (or represents a as having B), regardless of where that pattern occurs,
then if P2 in your o|'s-having-P2 simulacrum of my 0*'s-havlng-P^ is identical with
Pj your evoked thought pattern Pg (= Zj) Is no* merely a sympathetic repetition of
my percept's content but also represents in you the very same factive object,
52
a's-having-B, perceptually represented in me. However, an alternative prospect
52 When we here posit that a thought-pattern n (propositional, predicative, or nominal)
stands for an objective entity g (event, property, or particular), we shall for simplicity speak as though n's representation of £ in any particular o|*'s-having-iA
-254a-
Instantiation thereof Is strictly a binaiy relation of -ness to £ for which additional features of and its surround are irrelevant. But that is an enormous idealization; for whatever may be the nature of any aboutness coupling between \i and a, i t must surely reside to some extent in dispositional properties of the system containing ^ by virtue of which functions as it does in this system. That is , ji stands for a not simpliclter but only relative to certain domain-stable support conditions Sa,e that can be viewed as part of the domain preconditions defining some semantically specialized klpd of intentional system. (Indeed, rather than say that \i and other thoughts are "meanings," as is my wont, it can be argued instead that "meaning" is something that thought. i in system o, namely, the functional role in £ characterized ^7 On,a*' representation of £ by n under C^ - is s t i l l a patterpwise aboutness that can recur repeatedly in systems of this kind, and which can be described as a binary relation by saying that what represents £ is not just but the more global pattern property, |i-activated-in-the-context-of-domain-constraints-C^^Q. But you don't want to be burdened with repeated mention of such complications, especially since we shall have nothing useful to say about them.
i» that wMt rapreaents ^'a-haring-g in mj parealvlng i«~nat Juat prepeaitioBal
CCTstent P« qua repeatable pattern, but the full £*'s-having-P^ perceptual event
in such fashion that when this sane P^ recurs in another location £|, the factive
referent (if any) of o*'s-having-Pis generally some event other than a's-having-B.
If this second alternative is how representation works, then the only way for your
£*'s-having-P2 to be an objective simulacrtim of my o|'s-having-P^ is for your
thought-content £2 to differ from my P in some fashion that manages to give your
thought-event o*'s-having-P2 the same, factive referent as my perceptual event
o*'s-having-P-j by compensating for oj's displacement from £*.
Why a complete mental event, not just the activation state therein, may be
required for factive representation is plain in the inner-picture model of perception.
For as already noted, this envisions that an internal depiction of a's-having-B is
some brain event 0 's-having-/3 wherein, even though activity pattern /3 putatlvely
signifies B-ness regardless of where /3 may occur, the particular object a here
represented as having B is designated by depiction site 0^ on the basis of this
situation's locus structure. Presumably, the facet of structure most salient for
selecting o*'s referent is £*'s position in space-time. (Or at least we can let
that go proxy for some more complicated story about £*'s functional positioning
in a neural network.) So one simple example of how £* might pick out an object a
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to be represented as feavinf fi by, j^'s-havlng-/i is for this a to be whatever region
of space-time is the shape, size, and distance from o* identified by a certain fixed
function of fi^'s own shape, size, and efieatati,on_to the major axes of the observer-
stage whose brain contains oj. (Nevermind how silly this particular schema for
og-to-a reference may seem; it merely illustrates how it is possible for s^'s physical
geometry to select an external target of representation, not what may be a plausible
depictive account of this.) Accordingly, if o*'s-having-/3 so represents a as
having B, and o| is some other brain region (notably, in some observer-stage other
than the one containing o ) that is structurally just like o^ except for location,
then the object represented as having B by o*'s-having-/3 would be not a but some
other thing geometrically related to o* in the same way that a is related to o*.
In special cases, it may be possible for o| too to refer to a if the shift in
position from o* to g| is suitably compensated for by oj's also differing from £*
in other structural respects; but in general it should be difficult i f not impossible
for any o* widely separated from o^ to refer depictively to the very same a repre
sented by 0 ^ . as portrayed so far.
In short,^ depicted information is virtually incommunicable. For reproduction
of an inner-picture's pattern in different locations should generally fail to preseirve
factive reference, and it is dubious how often common reference can be achieved by
varying pattern across different depictive events,
|ln the variant of inner-picturing that holds the representation of external
object a in o*'s-having-/3 to be not o^ itself but the structural condition of
o^ by virtue of which the first version of depiction takes o^ to designate a, we
can say that what represents a as having B is not strictly the event o^'s-having-/3
but only the complex property, F^-coexemplified-with-/3. But the latter is not
a repeatable pattern which can be communicated, For£.80 long as F^ Includes the
property of having-location thus-and- o,_Pp, and hence F^'s oo»jEffi#tion with any
fiz^can occur only at site £j*.T: When the J*eOry_^of aboutness ctm^asts representation
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by-e @hts ,tfitfe represmrtajion^-t^ it__±#! only repeatable patter- j? capable
of participation in lawful regularities that we accept for the latter.]]
In contrast, inner-sentence representations are paradigmatically repeatable
patternsfiwen though it is not precluded that some may be uncommunicable events.
Consider the simplest form of primary perceiving, an o's-seeing-that-£?(-is-/3ish
wherein truthful representation of some nonrelational a's-having-B event is
contained. In its inner-sentence construal, the t-core of this perception consists
of a pair <o*,og> of o's brain regions satisfying whatever complex F of repeatable
structural conditions establishes £| and og as respectively the subject-position and
predicate-position of a monadic propositional frame, while certain abstractions o<
and fi from the activation states of o| and are the of-concept and /3-concept,
respectively. (We needn't make explicit here that even for a-nonrelational •
/ 3 , o^'s-having-6< may consist in various subregions of o* having a certain
configuration of structural relations and component activations, reflecting the
grammatical complexity of an ordinary-language verbalization of the cK.-concept.)
Then the propositional content of this perceiving is the pattern-property on
brain-region pairs such that, by definition, any <x,2;> has P ^ i f f K x , ^ ) & cxf;^ & 73(2).
Pending deeper insight into the nature of predicate semantics, we continue to
presume that external B-ness is (or can be) signified by internal activation pattern (albeit recall fn. 50. p. 254).
/3 wherever this may occur^ So i f we can top off the inner-sentence model of
representation with an account of nominal reference under which ©<' qua repeatable
pattern picks out a as referent, P^ represents a's-having-B wherever this propo
sition is instantiated, not only by <o|,o^> but also by any other pair <.fi ,o*>
of brain regions for which It h^lds that iX^l^^*^^^ o^K^^^i^)^
How the p< component of propositional pattern P ^ might designate a particular
localized object a is plain in the commonsense semantics of definite descriptions.
Consider a nominal of form 'the 2'—e.g., 'the largest city in Europe', 'the first
moon landing', 'the s.o.b. who stole nsj raincoat last week', etc,—wherein 'S' is
-257-
a more-or-lesa complex predicate which, contrary to the third example just given,
we shall presume to be free of demonstratives, (in practice, definite descriptions
often suppress article 'the' in favor of a possessive construction, as in 'Europe's
largest city', 'Brahms' 4.th symphony', etc.) Commonsensically, this locution refers
to whatever object has the property signified by '2' so long as there is exactly
one such thingj and that is our first choice for idealizing how inner-sentences
achieve nominal reference. Specifically, we posit as a first-approximation that
the nominal component o( of inner-sentence propositional pattern P^^ is a compound
o( = T^&A^(i.e., e, (x) = lJix)kJ({^ ) wherein an activity pattern X signifying
some generally-complex property K is co-exemplified with a special repeatable
"target-marker" subpattern whose function includes (inter alia) the inner-syntax
role externalized by the word 'thing' in 'thing that is K-ish'. (Without or
some other target-marker to augment "K in oC we should prima facie view as
referring not to some particular bbject of kind K but to the property K i t s e l f —
whence P - would become a representation of K-ness as having B. We shall say more
about target-markers shortly.) Then in a classical theory of reference (which ho\t-
ever-ittf^n't be the last word on this matter), o< refers to object a if f a, and a
alone, has property K. And if o< does so refer just to a, then wherever propositional
pattern P ^ occurs it represents a as having the property B signified by P^'s
predicative co >onent fi,
iargeraemantic-theoretical questions b f ^ H l i thaJsMei J'^
just sketched (which is not to say that any other psychonomically honest approach
to this has it any easier), especially regarding the representational status of
«< (= X ) when many things have the property K signified by To be sure,
we can hope that this circumstance seldom arises for inner-sentence percepts.
For i f primary perceptual contents are far more richly determinate than perceptual
reports ever verbalize except by demonstrative allusion to attributive concepts
newly minted on each perceptual occasion, and i f , moreover, arbitrarily much
-258-
of this detail can be packed into the percept's subject-content o< (as the
inner-sentence model is free to presume), then it could veil result that the
attributive subpattern X which delimits o<'s referential target signifies a
property so elaborately determinate that scarcely ever would it be exemplified
by more than one real-world object. Even so, it seems foolhardy to make so
strong a uniqueness presumption foundational in our theories of perceptual
aboutness. In particular, even i f each demonstrative construction of form
'this K-thing' manages to go linguistic proxy for a different concept on each
occasion of its usage in perceptual reports, introspection finds it implausible
that this is also true of 'I', 'here', and 'now'.
So what might oC represent i f there «re several K-kind objects in the
world? One radical prospect is that tx. multiply designates each object a of
kind K, while then represents a as having the property B signified by the
/S-component of P ^ just in case c< designates a and a has B. According to
this proposal, ?^ is veridical just in case some K-thing has B, yet what P ^
represents is each determinate a's-having-B event wherein a is a K that has B.
(Any such multiple-representation thesis is a major break with orthodoxy in
philosophical semantics. Ifevertheless, I have elsewhere argued repeatedly—
e.g,, Rozeboom, 1970b; see also Rozeboom, 1973—that to comprehend semantic
reality it is essential that we abandon idealizing reference as a word-to-world
mapping under which nominals refer uniquely or not at all.) Alternatively, we
can waive reference for o,: qua pattern, and hold instead that when the target-
marker which modifies y in =^ T^8t7( includes one or more marker components
to be elaborated shortly, of a special "token-cue" sortthe event of oCs being instantiated in some
region
particular brainyg^ designates whatever K-kind object is causally closest to
0 * (or is most salient for q* in some other respect selected by the particular
token-cues in T .) Token-cues are repeatable pattem components having a bare
deictic function, as verbalized most purely by hard-core demonstratives 'I',
'here', and 'now'. Tfeder this latter treatment, whether an inner sentence
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accomplishes representation patternwise by its t-core content , or only
eventwise by particiilar instantiations of P^^, depends on whether P 's subject-
content includes token-cues. If it does not, then and only then does P ^ aspire
to represent some a's-having-B event qua repeatable pattern and thus to constitute
communicable information—which, however, s t i l l leaves the problem of what such
a P ^ might represent when its subject-content is insufficiently replete to
single out a unique referent. We shall make one last pass at this issue following
a small shift in perspecti|%.
Demonstrative reference reconsidered; Existential reoreaentation.
The possibility of communication by inner-pictures is not quite so bleak
as just made out. For arguably, I have been arrogating a canonical form for perceptual
representation that is biased against depiction. Inner-pictures can, in principle,
transmit existential generalities; and although I have made considerable show of
positing primary percepts to have singular subject/predicate form, as distinct from
wha -wodem log% takes to be the'form of existentially quantified_pr6positl6ns, it
is"time tp-aotoaowledge that ordinary-language usage of indefinite descriptions
appears to achieve the force of the latter with the syntax of the. former.
To appreciate the subtleties here, let us articulate some structure within
the subject-content of seeing-that-o<'-is-/3ish by letting X tie some attributive concept
which a perfected English could express by an adjectival phrase, and compare
(61-1) 2 sees that this ?(-thing is /3ish ,
(61-2) o sees that a X-thing is /?ish ,
(61-3) 0 sees that something which is X is also /iish ,
(61-4.) 0 sees that there is something which is both X and /iish,^^
- •'Nothing devious is intended here by taking ' X ' to be adjectival as given while '/^' is adjectivized by a '-ish' suffix. Feel free to treat 'X' as interchangeable with 'Xish', and '/^ish' with «/^'.
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The that-clause In (61-1) Is paradigmatically a singular subject/predicate propo
sition, whereas in (6l-4) it is an existential quantification whose syntax is made
clear by rewriting (61-4) in symbolic-logic notation as
(6l-4a) 0 sees that •
But what about (61-2) and (6l-3)? The latter—which I include here merely to
illustrate that ordinary language offers more than one grade of intermediary
between (6l-l) and (61-4)—seems similar enough to (61-4) that we can tolerate
its assimilation to (6l-4a) despite qualms whether 'Something which is 7( is also
/3ish' differs from 'Something which is /3ish is also X ' by no more than the
trivial permutation of coordinate predicatives in ' ( x) [? (x)&/5(x)]' vs. ' (- x)[/3(x) <St
X(x)]'. But liftguistic intuition cries out against paraphrasing (6l-2) as (6l-4a);
for the latter fails to capture the former's subject/predicate asymmetry. The first
predicative in 'A X-thing is /3ish' has a manifestly different syntactic role than
does the second; and although the psychonomic import of that difference s t i l l remains
V thought patterns for clarification, we have every reason to anticipate thatj^that-a-X-thing-is-/3ish
and that-a- fi ish-thlng-is-X have appreciably different internal causes and effects
despite their having the same truth-condition, namely, (^x)[X(x)&/3(x)]. The propo-
aitiOBal content in (61-2) is as much of singular subject/predicate form as is the
content in (6l-l), even i f our theory of cognitive representation may desire to
give one a different sort of factive object than it assigns to the other.
So how do (61-1) and (61-2) differ in their propositional contents? I
suggest that there needn't be much difference at a l l ^ so long as the
attributive content demarked by 'X' in (61-2) is not limited to what extant English
can express. Or, somewhat more broadly, I shall argue that (61-1) abstractively ' :
contains (61-2), in the way that seeing-that-this-ls-dark-blue may contain seeing-
that-this-is-blue, with the two becoming largely the same when the ><-concept
is replete with all the attributive content for which the demonstrative goes proxy
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in the particular context of (6I-I)'s usage. The case for this runs as follows: the
In any reasonable constitutional model of o's-seelng-that-o(-is-/Sish,j^locus £* of
this perceiving's t-core, 0*•s-having-P^^, will contain a subregion 0 ^ (which is
the entirety of £* in the inner-picture model but only a proper part of it in the
inner-sentence view) such that the repeatable subject-content in propositional
pattern P ^ is a subpattern exemplified by 0 ^ . This repeatable subpattern oC
in turn analyzes as a compound o<(x) = T (x)&'<'(x) wherein 5< is an orthodox though
generally complex and only poorly verbalizable attributive concept (i.e., X is also
capable of[occurring in the predicate position of a subject/predicate propositional
frame) that in principle—not necessarily in fact—signifies some objective property
K-ness, while T^ is some subpattern in a special class T ^ of auxiliary brain-region
features which may be called "target-markers.* The litter variously constitute whatever
is added to the ^-attributive when that is nominalized by one of the transformations
whose most prominent instances are expressed in Enghish by locutions -
(62-1) * this* X-"thing ,
(62-2) the J(-thing ,
(62-3) a X -thing ,
(62-4) X-ness ,
(62-5) X-kind .
feature [[Target-marker^T^ in o( = T^StX might be either structural (and hence optioaaUy '
assimilable into the syntactic frame of propositions that Include it) or
activational. And although for simplicity we shall speak as though T^ and )( in
0*'s-having-«< are both properties of o| as a whole, it is alternatively
possible and Indeed perhaps more likely that the composition of o^io*) is
T^(o|^)&^(£a2) disjoint or at least distinct subregions 0^^ and 3*^ of 0 ^ .
The label "target-marker" alludes to T 's fine-tuning of the referential aim
of nominals in which it occurs.]]
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The demonstrative in (62-1) is marked with an asterisk to signal that for present
purposes we want this to be read in a purely deictic sense, not as proxy for
s t i l l more attributive content which could be expressed in a perfected language
by additional demonstrative-free adjectival phrases conjoined with X • That i s ,
for getting at what the demonstrative contributes uneliminably here, we presume
that all descriptive content which could in principle be expressed by verbalization
of (62-1) on some particular occasion to which this locution's semantic status is
relative is already in the If-concept.
But just what do the differences in array (62) amount to, anyway? Classical
semantics answers in terms of what the concepts these phrases express are about.
i.e., what they purport to represent under what circiumstanceai For (62-l), each Itself but only some "token"
particular occurrence of this nominal—not the repeatable pattem thereof—a%pires
to designate a particular object of X-dsmiJ^ftk^^drK in that occurrence's vicinity.
In contrast, the (62-2)-concept purportedly refers qua repeatable pattern, on all
occasions of its usage, either to the same one-and-only K-thing or, lacking
K-uniqueness, to nothing. As for (62-4,5)^ each expresses a nominal designed to
represent qua pattern a singular universal, namely, a unique property signified
by X in (62?r4) and the corresponding class of objects in (62-5). And although
classical semantics does not concede nominal reference to the (62-3)-concept, i t
does proffer objective truth-conditions for propositions containing this construction
in subject-position. let the more fundamental question, which philosopht^JsL ;.
semantics traditionally ignores, is what functional distinctions ground these
contrasts in representation? That is , how does one nominalization of the X -predi
cative differ from another in its arousals' causes and effects?
To argue that the differences among (62-1,2,3) in perception may be minuscule
—(62-4,5) are a different story that needn't concern us here—I put it to you that
with as much paraphrastic equivalence as real language ever provides, (62-1,2,3)
have essentially the same meanings, respectively, as
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(63-1) a here-and-now ©(-thing ,
(63-2a a one-and-only <5C-thing ,
(63-2b) a uniquely here-and-now <?<-thing ,
(63-3) a (not necessarily here-and-now) -thing .
Or rather, any intuitive discrepancy between (62-i) and (63-i) can be written off
to ambiguities in the former that are reduced in the latter. Thus, whereas (63-2a)
is a lawyer's reading of (62-2), (63-2b) more tightly captures what would ordinea-ily
be understood by (62-2) in a perceptual report and may also be closer than is (63-3)
to some occurrences of (62-1). Also, the parenthetical phrase in (63-3) does not
voice an active part of the concept standardly expressed by (62-3); rather, it
points out what (63-3) must omit i f that is to disambiguate (62-3) as distinct
from (63-1), albeit thia-disclaijaer may indeed be explicit in some occurrences
of (62-3). And we should further note that "here-and-now" is amenable to refinements
and modifications which everyday English cannot verbalize precisely but are intimated
by such awkward phrasings as 'almost here and now', 'over there a little while ago',
etc. (Utah of the shading in such demonstrative phrases may well be expressible^
at^f-i^ftive content; bu;b don't bet that it all is.)
If array (63) is indeed a disambiguating but otherwise accurate paraphrase
of array (62), it makes clear that when the concept expressed by (62-i) or
(63-i) for each 1 = 1 , . . . ,5 is modeled as a repeatable pattem wherein common
predicative ^ is conjoined with a distinctive target-marker 1^, i.e. = l^StJ(f
these target-markers T^^, T2^, T , T^, as well as other fine variants by which
list (63) can be expanded, can all be viewed as the conjunction T = T Q & T ^ of a basic
marker T Q ! a-{ )-thingfewith an, enrichment feature whi h for 1 ^ 3 Is^null except
when the parenthesis in (63-3) reflects an active disclaimer. That is, I submit
not merely that the thought-pattern of'3 expressed by (62-3) is fully as much
syntactically nominal as are the undisputed nominalizations cx , 0^2*
of X expressed by (62-1 ,2,4,5) , but moreover that 0(2^ and 0(2 are just o^^ with
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amall enhancements. Yet how conmionly perceptual contents occur with basic target-
marker Tq so enhanced remains problematic. The question is not whether Tq&^&X
with non-null T can be aroused in a percept's subject-position but how often
that is profitable when balanced against costs, and moreover whether some ^
(notably T ) shouldn't be treated as features of the modep in which thoughts get
entertained rather than as fragments of conceptual content.
Regarding definite-article targetHsarkings, it seems evident that input
conditions which evoke seeing-that-a-X--thing-is-/9ish_ would^carg^ provide
epistemic justification for strengthening this into seeing-that-a-one-and-only-
X-thing-is-ish. Starting ft'om(6^-1)-on the other hand, it could be both advantageoua
feasible and prospectively^to perceive truthfully that-a-unique-here-and-now-
X-thing-is-^ish rather than just that-a-here-and-now-X-thing-is-/5ish. Yet
there is little information gain in this uniqueness addendian unless ^ is much
attenuated from the nominal content in the most richly determinate seeing-that-
oC*-is-^ish from which this seeing-that-a-here-and-now-X-thing-ia-/3ish abstracts,
and in that case the uniqueness enhancement becomes epistemically rislqr unless
consequent upon a careful process of perceptual scanning. So by all rights,
enrichment of (63-3) ipto (63-2a) or (63-1) into (63-2b) should in primary ]^»^ption
be an infrequent departure from a uniqueness-noncommital norm. Accordingly, the
main challenge of (62/63-1,2,3) lies in what seeing-that-a-here-and-now-X-thing-
is -/3ish has to gain or lose over seeing merely that-a-^-thing-is-/?ish.
What here-and-now loading contributes to a perceiving's fvmctional import
is urgency. Arousal of pattern Tg^Ii&iif as the subject-content of a percept whose
predicate is is disposed by interaction with the system's memory store to
jjqpel^ immediate effector actions that would be inappropriate in response merely
to belief that some X"thing not here-and-now is /^ish. Yet that difference acarcely
seems to matter in the early phases of input processing; for the sensuous insistence
of perceiving that-a-X-thing-is-/3ish~i.e., what this particular modality adds
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to conceptual contents whose descriptions accept couplings with a plurality of
Psi-verbs—is tantamount to a here-and-now content feature; nor in the main, ignor
ing the gazings of astronomers, is there much chance that o's seeing-that-a-X-
thing-is-/3ish is veridical unless an object of the -signified sort is in
s's vicinity. So perceptual activation merely of a-3( -thing instead of a-here-
apd-now-X-thing should make little difference for what this makes happen next.
In post-perceptual ideation, on the ether hand, the presence/absence of
should indeed matter—as can be appreciated most easily by appeal to common
sensically Idealized memory. Suppose that after a continuant system s passes
through some stage £ where ' ' - ' ;
(64,-1) 0 sees (veridically) that a here-and-now -thing is/3ish ,
processes of retention and recall initiated by (64-I) bring it about in a later
stage £' of i that
(64.-2) '* o' remembers that a TJ[&3(-thing is /Sish ,
wherein either is here-and-now or is null. Clearly, this renembering's import
for action in stages of a immediately following £' should be importantly influenced
by whether carries feere-arjd-aow urgency. But the appropriateness of thajfel^-
pulsi^ depends on how far 0 ' is displaced from o. Were (64.-2) to be an episode
of immediate memory, with 0 ' following £ by scant seconds, then - herp-and-now
is not merely correct but quite likely requisite for the mediation through which
(64-1) prompts the system to take such actions as may be cogent in the presence
of an object having the character represented. But i f (64-2) is long-term recall,
with £' far removed in space/time from £, then its content will be veridical i f
^ is null but is in all likelihood false, with iaihali^^idF not aj^^
ces, ti":'^ is here-apd-now.
Let us call deictic enrichment feature T ^ : here-and-now a "token-cue" (cf,
p. 258, above) and allow that commonsense variants on this and other hard-core
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demonstratives, such as expressed by 'recently nearby' and 'my', suggest that In the limit
mentation exploits a repertoire of such features, fadingj^to null or its virtual
equivalent 8omevhere-somewhen. The point "to be taken frcpi (64.-1,2).is that whatever
particular token-cue may enhance as a variant reading^of hia f afift BW .i,
^ g f l ^ i ^ , . i t is maladaptive for this very same TJ^ to persist throughout the
succession of this perceiving's consequences unless is BBpLl. And that holds
not merely for remembering/recalling this percept's full propositional content
as envisioned by (64.-2), but also for recombinant retention of its nominal fragment
as when, e.g., event (64.-I) interacts with jg's conviction that-mo8t-/|ish-thlngs-
are-Ts to evoke conclusion that-a-^&X-thing-is-probably-a-7*. Briefly, when
T Q & T ^ & X is the subject-content in a belief (perceptual or otherwise) in £ that
gives rise to a belief with subject-content T Q & T ^ & ^ in successor o' of £, the
token-cue trace IjJ of that is cognitively optimal for the latter depends on
the excursive interval from £ to £', with optimal T fading rapidly to %ull with
increasing lag.
Despite the Importance of retaining nen-null or its force-equivalent in
the short-term effects of a perceptually activated thought-pattern T Q & T ^ & X ,
I take the point just developed to urge conclusion that token-cues should be
excluded from those brain-activity abstractions we classify as conceptual content.
Token-cues are by no means to be ignored; but how they work (or ought to work) in
rational thinking is so different from the behavior of content components whose
character should ideally be preserved under transfer from one thought-event to
another that we do best to split off token-cuing from conceptual content and treat
this instead as a facet of mentation akin to cogitive mode. Indeed, there is no
clear reason why variation in token-cue urgency cannot be straightforwardly subewied
under modal contrasts so long as we recognize that modalities can be nested, one
within the scope of another, with their Innermost cei^orr^ntl:%apable b^
not just to propositions as wholes but selectiveljr to s^
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^^ore broadly, there la reason to suspect that many aspects of mentation verbalized ijt ordinary English by special constructions within the that-clause completi©a§ tSf Psi-verbs are best reconstructed as modal attachments to conceptual content. The modality of thought is a terra incognita far more coBq)lexely vast than we have yet dared to acknowledge.
Even so, to sustain our present avoidance of modality issues, let us summarize
the psychosemantics of deixis expediently as follows: For any cogitive mode i>t
whenever it occurs that
(65-1) o that a li,&X-thing is /3ish
for some token-cue expressed in everyday English by a deictic demonstrative, it
follows by abstraction from (65-I) also that
(65-2) 0 ia that a X-thing is /?ish .
And conversely, the forcefulness of entertaining concepts in perceptual mode suggests
that any instantiation of schema (65-2) with a variant of perceiving is a-derivative
from some instanrtiation of (65-1) with non-null fj^. (Whether this converse also
holds for modalities other than perceiving is problematicj but the grammatical tenses
urged upon their completion clauses by 'remembers' and 'anticipates' point toward
a larger story in this regard.) The cogitive consequences of (65-2) for any succta-
sor o' of £ are included in those of (65-1), and we may plausibly conjecture that,
apart from open-loop feedback, the excess of the latter over the former decreases
rapidly to null with increasing lag from 0 to 0 ' .
([More technically, we envision that the trace of Tj in the effects of (65-1)
undergoes short-term changes that are probably rather like a decay to nullity,
leaving (65-1) 's long-term cogitive consequences pretty much the same as what
they would have been from an initially null except for repercussions froa
the non-mentalistic outflow incited by T^ in (65-I)'s short-term effects,
(Thus, i f (65-1) is £'s perception of an armed robbery, and iapels rash
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actiens leading te a Jjujlet's i ^ ^ l ^ M ^ g ^ l ^ j b r a ^ ^ successor; of j|,
its long-term effects on cogitation in o's successors may well be severe.)!
Iforeover, our long skirmish with perceptual demonstratives recommends that
canonical form 'o peJ ceives that o< is /3ish' for description of primary perceivings
be elaborated by parsing the percept's subject-component ci as an attributive=-cum-
target-marker whose most basic (primitive? prevalent? prototypic?) Instances are
concepts having the structure articulated in (65-1,2). To be sure, as progress in
the sttdy of mental mechanisms, this is important but scarcely astounding. For
once we appreciate the prevailing syntactic complexity of nominals in singular
propositions, the involvement of token-cues therein is simply one of many feature
variations in propositionally structured ideation whose distinctive functional
roles remain to be worked out. But this formulation does show how thought contents
whose ordinary-language expressions cannot be freed of demonstratives are also
describable without context-dependent use of demonstratives by a suitable theoretical
vocabulary, the teby making it possible for us to subsume such mentation under
communicable laws of thought. And emphasis upon forms (6$-l,2) has major import
for theories of mental representation. For it moves to center-stage the problem
of reference by Indefinite descriptions, and highlights the divide between repre
sentation by repeatable patterns and representation by nonrepeatable patterned
gveEts.
Even though the mental entities described by (65-1,2)'s content clauses
are in both cases repeatable patterns of brain activity (or at least we have no
good reason to suspect otherwise), a proposition thgt-a-T^&X-thing-ia-/Sish whose
token-cue non-null is semantically site-bound (contra sitg-fTeg) in a way
55
that that-a-y-thing-is- /Bish is not. For unless we abandon deictic semantics
55
We shall here consider these to be distinct propositions even though I have suggested that may be not conceptual content in a narrow sense but a fragment of modality contained in the first that is deleted from the second. Even i f that proves to be the way to go, however, we shall s t i l l want semantic valuations not just of conceptual contents narrowly construed but of their modings as well.
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altogether, we must hold that any proposition that-j)"*" containing a non-null token-
cue does not In its own right stand for any factive object but on y enables different
occurrences (Hokens") of this pattem respectively to represent different events
of a common kind at various locations picked out by each representation's own site
under a denotation criterion selected by subpattern i - -
_ Specifically, consider the representational contrast between (65-1) and
(65-2), assuming that predicatives ^ ft signify properties K and B, respectively,
and letting here-and-now go heuristic proxy for any non-null token-cue T" that might
occur in (65-I). With their that-clauses understood to be genuinely of singular
subject-predicate form, (65-1) and (65-2) each professes to describe some /-moded
representation of a kind-K object as having property B. But which kind-K object?
If there exists exactly one K-thing, ajj, we can say for (65-2) that its a-X-thing
concept picks out ajj for repeatable proposition that-a-V-thing-is-/3ish to represent
as having B wherever this pattern recurs, veridically so i f f object a j in fact has
property B. Wh^eas for (65-1), i f there is exactly one K-thing a^ in the immediate
vicinity of cognizer-stage 0 , we can say that the event (or its t-core, or t-core
locus) of 0's-containing-activated-a-here-and-now-y-thing-ideaticn refers to Sjj,
with this particular occurrence in 0 of the that-a-here-and-now-^-thipg-is-/Pish
proposition then representing a^ as having B. Just where in space-time relative
to £ such an a^ should be in order to qualify as the referent of this representation's
nominal is no less vague than is commonsense intentionality's wont; but imprecision
aside, the acceptability zone for a^ is selected, voider a function corresponding
to the token-cue for which we are taking here-and-now as proxy, by this particular
representational event's location. That is, in sharp contrast to (65-2), what
accomplishes representation in (62-1) cannot be just a repeatable thought pattern;
it most include the where-and-when of some particular tokening of this pattem.
either
But what should we say is represented^by semantically site-free propositional
pattem that-a-^-thing-is-/3ish. or by the event of site-bound proposition that-a-
here-and-now- ?(-thing-is-/3ish being active in 0 , when the distribution of K-kind
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is less Ideal than just envisioned? If there are no Ks at a l l , then of course
nothing Is represented as having B either In (65-1) or In (65-2). But what If
there exist many K-things or, for (65-1), more than one K-thing in the vicinity
of 0? In the latter case, token-cue may well have the force of nearest-and-
nowest; and even i f not, repleteness of the X-a^t^itiutlve can easily make negligible
the probability of a local multiplicity of K-things given that one is present. (This
is why everyday locutions of form 'this K-thing' seem unproblematieally referential.)
let no matter how richly detailed the X-concept may be, i f it is logically possible
for the K-ness this purportedly signifies to recur, then we cannot plausibly presume
that a-(somewhere-somewhen)- -thing picks out a unique referent given that it
refers at a l l . So what does the repeatable proposition that-a--thine-is-/^ish
patternwise represent when there are many K-things? Two responses, both defiantly
evasive, are ap|»*opriate here.
The first is to emphasize that multiple reference is indeed a major problem
for semantical theory, one that arises far more pervasively than just from construing
indefinite descriptions to function syntactically as nominals and which demands a
fundamental reworking of standard philosophers' presuppositions about concept/object
couplings. I have already spoken briefly to this issue on p. 257f., above, including
the simplest (though not wholly adequate) way to handle i t , and that is as far as
we need to go here in sighting down new semantic-theoretical trails.
tEven so, this situation can be made somewhat more intelligible albeit no less
disquieting as follows: The semantic status of proposition that-a-y-thing-
is- ish or a given cognizer-stage o may be viewed as essentially equivalent
to that of theoretical proposition that-Johm-is-/3ish where 'Johm' is syntact
ically a proper name "implicitly" defined by o's acceptance of the minitheory
consisting solely of the postulate that-Johm-is-a-X. More loosely, the latter
is simply the case where the Johm-nominal's role in g'a conceptual econonqr
makes the property signified by X the sole criterion of Johm's identity—i.e..
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o's only grounds for judging whether this particular object is Jobffl is the
strength of £'s conviction that-this-is-a-y. Virtually every proper noun in
your real-life vocabulary—'Socrates', 'Boy George', 'Los Angeles', 'NATO',
etc.—expresses a concept having this status for you; and even i f you question
that any class of disjoint entities picked out by what (say) 'Boy George' means
to you should have cardinality greater than one, many different overlapping
regions of space-time equally qualify for you as the location of this name's
referent. (That remains true even i f , contrary to reason, Krlpke, Kaplan, and
certain other modern philosophers of language are correct to hold that the
referent of this name for you is determined not merely by your own understanding
of it but by its history in your wider linguistic community.) You may shrug
off such hazi- of- referent locations as nothing more than the vagueness which,
to one degree or another, invests all commonsense concepts-in-usej and you would
be right not to be unduly exercised over i t , (imprecision works itself out as
need arises, and gratuitous exactitute is generally counterproductive.) Yet
philosophy of language has failed abjectly to give us an insightful account
of what vague representations represent. Indeed, perhaps the main reason for
philosophical semantics' shameful record in this matter is its reluctance to
confront concepts whose objects cannot plausibly be identified simply by meta
linguistic applications of nominalization and disquotation, ]]
Whatever accounts of multiple reference may prove to be technically tenable, these
will surely tolerate our saying that the propositional pattern that-a-y-thing-ii^e
/ i2il» i f veridical, carries the information that some K-thing exists which also
has B. Or to be really expedient, we can for now say that this veridical proposition
represents the existential fact that (^x)[K(x)&B(x)], leaving for future ajudi-:-
cation whether it also represents certain particular K-things as having B.
Secondly, it is important to be clear that any answers a theory of aboutness
may give to what objects are represented by what ideas under what circumstances
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sImply do not matter for a science of mental mechanisms, except insofar as pursuit
of tidiness for such answers may bias our preferences for which molar properties
of complex dynamic systems are to count as intentional. That representational
aboutness is an epi-phenomenon haying no import for the nature or causal fundtlonlgg
of thoughts in no way diminishes this matter's human importance: Use/mention
interchanges (quotation and disquotation transformations) in our commonsense
dealings with words, together with our deeply felt need to enhance our intellectual
proficiencies by evaluative critiques (reasoned approvals/disapprovals) of our
concept-econongr's management, quite properly drives us to search for coherent
theories of representation. But once the question-begging inadequacy of disquotat-
ional semantics for normative guidance becomes apparent, we can only hope that
realistic accounts of aboutness can be extracted from a scientifically sophisticated
grasp of how concepts mediate environmentally adaptive human achievements—after
some such understanding becomes available. In short, put it this way: If we are
entitled to feel confident of anything in semantics, it is that the distinctive
representational character of any particular idea (thought, meaning, concept) (x
for organism-stage o lies in the conceptual role played by \i. for o. But what is
that i f not simply o's constellation of dispositions for (x and its compoundings
with other ideas to participate in the causal processes that, at one level of
molar abstraction or another, have made a's internal state and external situation
what they are and what they will become? When we learn enough about the nomic
regularities that cash out this "conceptual role" promissory note, the logic of
aboutness will fall into our hands i f not quite like a ripe apple then at least
with only moderate tugging.
What might communicable depictions represent?
The argument just developed, that £'s-seeing-that-o<-is-/3ish is paradigm
atically a more determinate token-cued o's-seeing-that-a-T^&X-thing-is-^ish
abstractively containing o's-seeing-that-a-;(-thing-is-/3ish, in principle rehabil
itates the prospect of communication by inner-pictiares. Our two primary variants
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of conjectured depiction in £'s-seeing-that-o<,-is-/3ish, you will recall, are (a)
that this is simply £*'s-having-^ wherein s's perceptive brain-region o* stands
for a particular object a through certain structiiral properties of o* and
represents this a as having a property B signified by activity pattem / i , or (b)
what represents a as having B is 3**8 joint property Fo(-&-/3, with in itself,
not its bearer 0 * , being what refers to a. Earlier we presumed that the inner-
picture embodiment F^ of nominal concept oC would have to include o*'s spatio-
temporal location, or something tantamount to that, in order to pick out an a in
£*'s vicinity. And were it not for one complication, that construal would s t i l l seem
appropriate when dC has composition ad = a-T &Jt-thing with carrying the force
of her -and-now. That i s , we could say roughly that the depictive token-cue here
simply is the location L(o*) of brain-region 0 * , while the a--thing remainder of
F^ is some complex Pj^ of structural features (e.g. shape and size) that can recur
in many different locations. Then inner-picture event £*'s-being-at-L(o*)-&-havlng-
Pj^-&-|8, which is a site-bound (tokenwise) representation of a as having B, also
abstracts into o' 's-having-P -&-/i wherein Pjj.-&-/i is a repeatable condition that
carries the information that a K-thing has B. And since this pattern can be repro
duced throughout jg's continuant social community—i.e., many brain regions in £'s
successors and their collegial contacts can share structural character P^ along
with the capability of activation —depictive retention and communication of this
existential information becomes routine in theory.
This simple account of communicable depiction cannot stand, however, without
a major albeit easy shift in its treatment of token-cues. For, consider a process
of long-term memory idealized by (64.-1,2) with T in (64-2) taken to be null. If
the t-core of (64-I) is o*'s-being-at-L(£*)-&-havlng-Pj^-&-/3 with Pj^-&-/5 a repeatable
pattern, we can easily imagine mechanisms for mnemonic reproduction of this property
in a brain-region in successor g' of 0 . But 0^ too will have some location
L(^); so 's containing the site-free depiction ZjT^-/^ of a K-thing's having g
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will be embedded in the event j2*'s-being-at-L(o )-&-having-Pj ,-&-/3, which purports
to be a site-bound representation (in all likelihood incorrect) of some K-kind object
in the vicinity of as having B. To obviate this problem, however, we need only
conjecture that inner-pictures embody here-and-now not in the referent-^etermining
locations of depiction events so token-cued, but in some structural character
shared by some but not most depiction sites. (As will be apparent without my
belaboring the point, can be just one of many graded token-cue alternatives in
depiction.) Suppose, for example, that brain stages have disjoint sectors corres
ponding roughly to certain open modes of thought—a perceptive sector, a short-term
retentive sector, a long-term recollective sector, etc.—while S"*" is the property
of being perceptive, i.e. being wholly part of a perceptive brain sector. (Note
that 2* has S"*" i f f each part of o* has S" , as wanted for dense depiction—see p. 245,
above. Note also that a depiction site's structural property of being short-term
retentive might similarly embody nearly-here-and-now. and so on for other common
sensical deictic^ demonstratives.) Then i f memory processes lead from £'*'s-having-
to 1 ' s-having-Pj^-&-^, where o* is perceptive in observer o and is
long-term recollective in a successor o' of o, the first of these site-free existence
representations abstracts from o's site-bound representation of a here-and-now K-thing
as having B, whereas the lack of S' -ness in long-term recollective regions allows
SjJ's state to embody recall in o' of the information that a K-thing has B without
concommitant imputation that any such thing is present to o'.
The cogitive merits of inner-pictures vs.-inner^sentences.
We have been so long at the issue of demonstratives (unless you took my
advice to pass over that discussion) that I had best remind you that our broader
aim here has been to illuminate the possible nature of percepts by comparing their
inner-picture and inner-sentence models* It is time for a summary evaluation of
that contrast.
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It may well have occurred to you, as we drew out the force of conjecturing
the t-core of o's-seeing-that-o<-is-/Qlsh to be a depiction of some object a as
having a property B, that the account of representation this gave us seemed con
siderably estranged frMn commonsensically conceived propositional thought. And
that the latter is nondepictive is indeed a reasonable conclusion. But this con
clusion should not be seized too quickly, especially not under supposition (evident
in the writings of many cognition theorists) that i f a mental representation is
not sentence-like then it is perforce not propositional. Indeed, one large virtue
of the inner-picture model is to make clear that there is nothing intrinsically
objectionable in the hjrpothesis that images may constitute propositional thought;
it is only certain unfoldings of this prospect that appear dubious. And we are
thereby warned that the inner-sentence construal of propositional thought is
equally conjectural.
The prospect that percepts might be inner-pictures is badly tarnished by
one roundhouse objection which, however, incurs considerable backlash against the
glibness over predicate signification for which fn. 49 (p. 241) requested your
indulgence. Suppose that when I ask you what you are holding, you see that-this-
thing-in-hand-is-a-book. According to the ^Principle of Dense Depiction (p. 245),
in order for your perceiving's t-core to be an inner-picture o* 's-having-/3 (or
0*'s-having-F^-&-/3), your brain-region o''s activity pattern /3 must signify a
Bookness property which abstracts from properties (including relations) of this
book's mereological parts in isomorphism to the constitution of /S by properties
of o*'s subregions. But Bookness does not seem to be at all that sort of property.
For surely an essential facet of what it is to be a book is to play a certain role
in social communication; and whatever the details of that role, commonsense protests
against its being abstractable just from properties of the parts in any partitions
of objects we take to be "books." To be sure, commonsense may bs ingenuously wrong
about this. For i f the "social role" included in Bookness is no more than a set
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of dispositions to interact with readers in certain ways, then a book's disposition
to function bookishly should indeed be a-derivative from configurations of book-part
properties. Yet even i f that is so, it seems scarcely conceivable that the manner
of that derivation could be isomorphic to the composition of any molar brain-region
activity 1^ , Nor need we reach for social roles to make this point: ftie major
ingredient of Bookness is the property of comprising an unspecified but appreciable
ntanber of layers (pages) that are disposed to preserve their individual physical
integrities when jostled, but to separate freely save at one edge. The property
of comprising a pages (a a determinate integer) can straightforwardly even i f
demandingly be represented in the structtire of /3 j but how these pages' movement-
dispositions might then also be represented depictively in the subregional activity
patterns from which fi abstracts boggles the imagination.
Were it not for one large demurrer, this line of argument would pretty
thoroughly sunder inner-pictures from commonsense percepts. For with only routine
adaptations it can be repeated for nearly any predicative concept we are able to
verbalize when reporting what we see in natural settings. But do ordinary-language
predicates in fact correspond to objective properties in the simplistic fashion we
have been presuming? Is there really any Bookness out there for percepts to repre
sent? That our book-concent is flagrantly vague is not decisive; for while we
surely do not want an ontology that admits a fuzzy Bookness dg rg corresponding
exactly to our fuzzy notion of this, we can hold instead that the latter signifies
loosely, to a certain degree, each complex external property that would be signified
by some ideal precisification of this concept. Yet suppose that book were already
ideally precise for us in such fashion that its representational tie to the world
could be explicated by a statement of form 'Anything x is a book i f and only i f S(x)'
where '§(_)' is a complex predicate that articulates the composition of Bookness,
(E,g,, 'S(x)' might begin, 'x consists of at least three separable but individually
cohesive layers flexibly joined at one edge ...'.) Considering the opulence of
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logical quantifiers, modal operators, and physioal/social descriptive terms that
would appear in 'S(_)' (don't ask—it's worse than you think), we can easily conclude
that even i f there really is an objective Bookness signified with precision by
'S(__)', its occurrences cannot possibly be depicted—especially not in any seeing-
that-o^-is-a-book, insomuch as the book-concent therein contains little of the
structure that would be manifest in 'S(_)'. (Whereas you can see-that-this-is-a-
book with scarcely any mental load, the demands of seeing-that-S(this) should far
exceed your human capabilities. Indeed, it is a major challenge for any account
of predicate signification to explain how seeing-that-eC-is-a-book can have the
same factive object as the unmanageable seeing-that-S(o<).)
Ohhappily, this argiment carries farther than one might wish. For not
merely does it discourage conjecturing commonsense percepts to be depictions satis
fying PDD. its discomfort with simplistic predicate semantics (and hence, in light
of our analysis of demonstratives, with nominal reference as well) suggests more
sweepingly that seeking insight into the nature of mental contents foremostly in
terms of what, representationally, these are objectively about is a mug's game.
Taking that rejeetion;-seriously needs not extinguish psychonwnic concern for
representation; but i t does urge us to shift talk about what some given feature
'Y of thought in fact represents to talk about what y purports to represent. That
is, instead of claiming/conjecturing that "Y does represent an entity such that
we do better to say only that the psychonomic functioning of in the mental system
at issue is as though T represents something such that .., . And this "as though**
appraisal is then to be cashed out in some account of principles that govern the
behavior of Whatever molar properties of cognizant systems fall under the categories
of commonsense intentionality-talk, at least insofar as the latter do Indeed
rough in phenomena worth scientific study.
For example, this shift of focus would rewrite PTO to say merely, in essence,
that i f the t-core o*'s-having-/3 of o's-seeing-that-o<-is-/3iah is a depiction.
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then any event o|"a-having-/S^ from which the former is a-derivative ia the t-core
of a seeing-that-oc j-is- /3j by £ for some nominal concept e>iy The weakened PDD
no longer requires any such o?^'s-having-/3j to be a veridical representation wteese er
£*'s-having-/3 is, nor even to be about anything at a l l . Instead, it acquires
psychonomic force from non-representational *principles idealizable by schema
h^Qg' For any observer £, nominal concept x, and predicate concept j ,
if 0 perceives that-x-is-^iah, then Result(o.x.y) ,
wherein consequent clause Result(o.x.y) is in all likelihood a complicated condit
ional that needs su]R3lementation by additional states of £—e.g., a match of idea
jr or 2; to o's other active thoughts or dispositions thereto—for any mental occurrence
to follow.
iFor example, 'Result(o.y.y)' might include 'For any concept z, i f £ actively
or dispositionally believes that-all-2;s-are-zs, then f ( 0 ) actively believes
that X is a ', where f ( 0 ) is a short-lag successor of 0. Then under L og*
£'s-seeing-that-o<-is-/3ish brings about f(£)'s actively believing that-*(-
is-a-7^ conditional on £'s having the belief (either stored or activated)
that-all-/3 s-are-y s.J
Given £*"s-having-/3, with /fl*'s-having-/^^J any collection of its abstraction-base
fragments as just described, what then follows from L^ g under the weakened PDD is
not just Result(o.ot'./a) but all of fResult(o. y^^^} for £*'s parts [£*/. iathough
production of occurrences from this array of Result-c onsequences depends on
release of condltionalities in the latter by £'s standing on other state
dimensions, you can easily see how the depictive construal of £'s-seeing-that-B^-
is -/3ish is far more jeopardous of system seize-up under J^^^—that i s , implication
of conjoint occurrences which are in fact competetive--than would be a model of
perception that does not require this perceiving to be concommitant with enormously
many other perceivings by £. What is dubious in this is not that there might be
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lawa under which soBse complex brain states with picture-like organization give
rise to others. Rather, it is our prospects for formulating principles that apply
indiscriminatively (within limits) to all abstractions from all parts of such
brain-state configurations, and do so moreover in rough agreement with commonsense
expectations about the flow of ideation.
Even so, it is conceivable that a sophisticated theory of depiction might
tenably constrain PDD tightly enough to turn aside this seize-up threat. If we
ignore PDD and its attenuations altogether, do any significant differences remain
between inner-pictures and inner-sentences? There do indeed, even though waiving
appeal to objective reference and some PDD-type opulence of nested representations
there is little to identify a thought as "depictive" except deficiency in the dis
tinctive features of inner-sentences. The bottom line of this balance sheet is
simply that ordinary-language descriptions of perceptual contents impute these to
have certain system properties which are not adequately realized by inner-pictures.
So either those lleged properties are psychonomically spurious or whatever embodies
them in brain processes is not depictive.
Consider again our primary perceptual format, seeine-that-za^'-is-y3ish. In
most real-life instances of this (arguably, all without exception) subject-concept
o<: is a target-marking nominalization o( = T^&X of some attributive concept X»
as variously illustrated by everyday locutions 'this X-*hing', 'the X-thing',
'a here-and-now X-thing', 'X-ness', and s t i l l others noted earlier. (Recall that
even when we verbalize of by a bare demonstrative, lacking an explicit X» the demon
strative generally functions in part—though only in part—to signal an attributive
that we cannot readily express.) So i f o's brain-region o* is the site of £*'s-
seeing-that-T^&X-is-^iah, £'*'s totality of properties must include some embodiment
of the )^-concept as well as one of /i . And however those embodiments are accom
plished, they should not merely be noncompetitive—i.e., o*'s having the one must
not preclude its having the other—but to be systematically so in that most options
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for X exclude few If any options for , One way to achieve this—the inner-
picture way—is for the total-state space over sites of mental representations to
factor into logically independent subspaces and of two nomically distinct kinds
of properties such that the options for X are abstracted Just from P while those
for A abstract just from Q. (This is essentially all that we have done with the
structural/activational distinction in setting up our two idealized percept models,
though we have further anticipated that structural states P should play a role in
mental processes rather different from that of activational states Q, and have
conceded that the abstracting of molar activation patterns may also draw upon
structure in such fashion that certain options for o*'s P-state do indeed preclude
some alternatives for /S.) In contrast, the inner-sentence way to insure co-realiz-
ability of ^ and /3 is for o**s mereological parts to include two disjoint subregions
£* and og whose activation states abstract into patterns X and /3, respectively.
Then there can be no conflict between o*'s part ^ having ^ and o*'s part o^ having
/if even though causal antecedents that co-produce these compatible events might
be hard to come by.
However, getting £*'a total state to contain ?( and ^ jointly does not
suffice to make o* the site of a seeing that-T^&y-is-/3ish. Ordinary Isaiguage
Implies that £*'s state must also contain a target-marker Titled to o*'s embodiment
of 3( in some functionally significant fashion that does jjot similarly tie it to ft,
(Such a T^ is needed, inter alia, to expand X into a nominal; and any model of
propositional thought must further allow an array of T^ alternatives, insomuch as
ordinary language envisions many functionally different nominalizations of the same
attributive V») At first thought, inner-pictures seem more adept at this than are
inner-sentences: When £**s embodiment of that-T^&X-is-/3ish is depictive, X is
marked as nominal simply by being an abstraction from o*'s state in structural-
property space P, while abstraction ft from o*'s Q-state is the concept predicated
of this nominal simply by virtue of its being of the activational (contra structural)
kind. And to complete the in^er-picture's nominal by adjoining 1^ to X> "®
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envislon that structure space P In turn factors Into subspaces P_ and P„ such that
choices for J{ abstract just from P-j while and its alternatives abstract just
from P2. (What then ties to f< rather than to /3 is their common status aSo».truet-
ural.) In contrast, the inner-sentence model partitions £*'s subregion o| containing
the percept's nominal into two sub-subregions o*^ and 0*2 whose activation states
respectively abstract into patterns K and T^. That T^ joins X rather than /3 to
form the percept's nominal, while /3 rather than ){ is the percept's predicate,
is accomplished for this inner-sentence by some antisymmetric complex of structural
relations among o -j , o|2» and o*. (As a fanciful illustration, the structural format
for predicating a concept in og of a concept in 0 * might be o*'s being spatially -a -a
surrounded by sg, like • firted egg's enclosure of its yolk by its white; while fi|'s
containing T^ and X' as the unified subject of a monadic predication, rather than
as a 2-tuple of nominals for a relational predication, might consist in Si*^, fia2
being spatially contiguous, unseparated by £*, like a double-yolked fried egg in
contrast to two single-yolked eggs fried with whites run together.)
However, this inner-picture model of the subject/predicate distinction
implies that theldeScrlptive eoMents embodied in depictions divide inflexibly
between structural concepts that are inherently nominal and activational ones that
cannot be nominalized. Thus if seeing-that-this-;i{'-is-/3ish is depictive, its
converse seeing-that-this-/3ish-thing-is-a-X is constitutionally impossible. And
inner-picturing of conjunctive predications is also dicy. For whereas an inner-
sentence embodiment of £'s-seeing-that-oC-is-/32^ish-and-/S2ish puts its two predicate
concepts into disjoint brain sites and 0^2 and so risks no incompatibility
between the /3^-pattern in 0 * ^ and the /Sj-pattern in regardless of what those
may be, an inner-picturing of this proposition must co-exemplify activity patterns
/i^ and /i^ in the same brain site o*, which is possible only If they do not compete.
Of course, there should be many joint options for and /Sg *hat are indeed non-
competitively realizable in the total state of £*, especially ones that are composed
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PDD-wlse In isomorphism to the cMiposltion of co-exeii5)lifiable molar attributes
©f external objects. But as inner-picture theories lay claim t© a repertoire of
predicates increasingly beyond the at-best meager range of ones that can satisfy
PDD. competition among those is bound t© grow increasingly prevalent. (As dis
cussed in Chapter 5, noncompetitive pattern variables are hard to come by.) T© be
sure, competition between /J^ and fi^ is no impediment to embodiment ©f e's-seeing-
that-o^-is-y^j^ish-and-that-tf^-is-ySjish as a pair of depictive events, a^'s-having-
F^-and-and o|'s-having-F^-and-^2» wherein oj and o* are disjoint brain regions
of jj that each have the repeatable structural condition constituting nominal
concept oC. (For the end of a le»g story on F^-repeatability in depiction, see
p. 273f., above.) But that is not the same, either commonsensically or in all like
lihood psychonomically, as a percept in which feneepts and 2 are each coupled
predicatively with the very same embodiment of the ©<-nominal.
In short, the special format of inner-sentences gives these a compositional
versatility that far outstrips the differential realizability by depiction of c ommon—
sensically conceived propositions. Yet for this to urge conclusion that percepts
are more sentence-like than picture-like, it needs also to be argued that these
propositional differences, cleanly distinguishable by inner-sentences but not
reliably so i f at all by inner-pictures, genuinely matter for cogitive information
processing and moreover occur not just in nonsensuous ideation but in perception
as well. In particular, given that
seeing that-thls-X-is-y3ish
is a realizable percept, is each of
seeing that-this-/3ish-thing-is-a- X ,
seeing that-this-thing-is-a-/3isb-3^ ,
seeing that-this-thing-is-/iish while also
seeing that-this-thing-is-a-X
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likewise a realizable percept whose nomic force differs appreciably from that of
the others in this almost-but-not-quite paraphrastic group? Commonsensically the
answer seems clearly affirmative, at least regarding nMde import: Intuition
tells me that my seeing that-this-/3ish-thing-is-a-^^l*, or my seeing that-this-
thing-is-a-/9 ish-X» °^8t be transformed into an awareness that-thls-?^-is-/3ish
before it can induce adjustments in the strengths of my generalized beliefs (dispo
sitional or activated) that-all/most/many/few/scarcely-any/no-Xa-are-/^ish, or
before it can interact with my standing opinion that-most-/^ish-things-are-T^s to
make me suspect that-this-^-is-a-T. (To get clear on the point here, write out
these percept/generallty/conelusion triples as putative inference schemata.) And
it seems doubtful that I could infer that-this-thing-is-probably-a-?^ from my general
ized belief that-most-/iish-Xs-are-T^s and my observing both that-this-thing-is-
/3ish and that-this-thing-is-a-X were not my observations more tightly unified as
an awareness that-this-thing-is-a-/3 iah-7*.
To be sn^e, only an innocent or a philosopher of mind would think that folk
psychology proffers articulate views on what grammatical forms of prepositional con
silience govern our real-life Inferences. But the salient point here is simply that
we have every reason for confidence that variations such as just noted in the syntax
of logically equivalent propositions do indeed make considerable difference for
how modings of these propositions function in cogitive processes, even i f such
effects are s t i l l poorly understood by psychonomic science. And everyday perception-
talk affords no suggestion that the attributive concepts in perceptual nominals
cannot be predicated. Not only is it commonplace for you to see that the book
before you is blue, it is equally mundane that given a different preparatory set
you might just as readily see instead that this blue thing before you is a book,
or that this thing before you is a blue book.
So can we then conclude that percepts are not depictive? Not exactly. What
does seem implied is the inadequacy of inner-pictures for modelling thoughts correctly
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describable by that-clause completions of Psi-verbs, perceptual or otherwise. But
our earlier Posit (p. 226) notwithstanding, it is far from clear how much of the
perceptual-experience story is best told in these traditional terms. Beyond the
problematic status of feelings and emotions (see fn. 23, p. 137a above), phenomen-
ological research provides ample reason to question whether all conscious awareness
is structured as moded propositions. (See especially Hunt, in press.) And as I
gaze across my cluttered study through its broad rain-speckled window past the fore
ground birch and across the valley toward the freeway traffic, only a little amateur*-
ish introspection on my visual experience suffices for me to misdoubt that this
bright, richly splendored vista with its me-in-the-world aura is a largish collection
of disjoint concepts on display in separate little bins whose layout determines what
is nominal to what predicate. Arguably, what is most consciously vivid in the
phenomenology of perceiving is a pre-conceptual stage of sensuous erlebnis that
blends introspectively into its most direct propositional consequences ("interpre
tations" ) but is not appropriately described in the same terms or grammatical format
as the latter.
That the classic distinction between pre-conceptual sensation and perceptual
judgment may s t i l l be cogent for the study of mind (so long as the having of sensations
is not-mistaken for a perceiving of them) is only incidental to the larger issue
here: Insofar as the idiom of intentionality carries presumption that internal
conditiona so characterized have sentence-like compositions and inference-like
effects, it is psychonomic folly to apply that idiom indiscriminately—as does
modem "information processing" jargon—to all stages of central arousal from
stimulus reception to motor outflow. There is simply no good reason to think that
organisms pervasively work that way, even i f some parts of the system at molarity
levels creamed off by folk psychology may do so.
It would be fair but fatuous to conclude that although inner-pictures
ultimately prove deficient to model the constitution of propositional perceiving
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as folk psychology conceives of th^s, it is not thereby precluded that the preceding
sensory stage of input has the iconic character suggested by modern research in,
inter alia, the Sperling tradition. Though perhaps worth voicing, this broad-
mindedness is largely vacuous insomuch as any partitionable object, in particular
any brain-region o*, is a proto-plcture in that its totality of attributes makes
It depictive in all respects save possibly, like a work of nonrepresentational art,
its failinre to be a picture of anything. For o* has parts, and its parts have
parts, all integrated by structural relations and embodying molecular parts-properties'
which abstract into nestings of more holistic features of o* and its subdivisions.
And that is all a picture is in its own right; any full-blooded depicting i t may
accomplish is imposed by some extrinsic correspondence—cognitive, statistical-
covariational, fortuitous isomorphism, or whatever—of its parts with components
of something else, and properties of the former with properties of the latter, in
a fashion satisfying some counterpart of FDD for this mapping. (Like all represen
tations, depictjijpns are relative to some rule of correspondence which, however,
needn't be cognitive aboutness albeit that is prototypic.) Only when what we are
saying about £*-like things picks out particular configurations of abstractions
from these objects' total states as our target of concern does the question arise
whether these selected oomplexes are structured more like pictures than like
sentences. So the imageal status of pre-conceptual sensation (or of any other
central-processing stage) cannot become a well-mounted issue until we regiment
the events in question under descriptions that discriminate the conjecturedly
salient aspects in which sensory arrays resemble and contrast with one another,
and adduce some manner of viewing these as representations of something else,
preferably as "information" (in the statistical sense) about conditions in the
eliciting environment. As brought out by our Molar Photography heuristic in
Chapter 5 (p. 203ff.), the gulf between that aspiration and its hard-science
fulfillment remains awesome.